====== Sentinel Class Control Frigate ====== The Sentinel-class Control Frigate is a starship designed to oversee and coordinate [[corp:mining_guild:mining_operations]], providing centralized control of drones and enabling miners to safely operate robotic bodies in hazardous environments. ===== History ===== {{ corp:mining_guild:starships:sentinel.png?400|}}The genesis of the Sentinel-class Control Frigate traces back to the collaborative efforts of a dedicated team within the [[corp:mining_guild:]]’s [[corp:mining_guild:company_operations#engineering_corps|Engineering Corps]] during the early stages of [6th year of NDC]. Spearheaded by visionary engineers, designers, and strategists, this endeavor aimed to revolutionize the Mining Guild's approach to resource extraction and mining operations amidst the diverse challenges posed by extraterrestrial environments. At the forefront of this initiative were [[characters:mg:astrid_kurosaki]], the forward-thinking CEO of the Mining Guild, and [[corp:mining_guild:company_operations#royal_representative|Royal Representative]] [[characters:ndc:nyx_pine]], whose shared concern for the safety and well-being of both miners and crew members ignited the impetus for innovation and advancement in ship design. The primary motivation behind the creation of the Sentinel-class Control Frigate was to mitigate the inherent risks and hazards associated with mining activities conducted across various star systems and planetary environments. Recognizing the need for a specialized vessel capable of ensuring the safety and efficiency of mining operations, the team set out to design a ship that would not only protect miners from the perils of deep space but also provide a secure and sustainable platform for resource extraction and management. Drawing upon extensive research, technological expertise, and strategic foresight, the team devised a comprehensive blueprint for the Sentinel-class Control Frigate, integrating state-of-the-art systems, advanced automation, and robust defensive capabilities tailored to the unique demands of mining operations. Emphasizing modularity, adaptability, and crew comfort, the design prioritized safety protocols, hazard mitigation measures, and ergonomic accommodations to enhance operational effectiveness and crew morale. Throughout the design and development process, Astrid Kurosaki and Royal Representative Nyx Pine remained steadfast in their commitment to fostering a culture of innovation, collaboration, and safety within the Mining Guild. Their visionary leadership and unwavering dedication provided the guiding principles and strategic direction that propelled the Sentinel-class Control Frigate from conceptualization to realization, heralding a new era of safety, efficiency, and sustainability in mining operations across the galaxy. Astrid and her twin sister, [[characters:mg:aeta_kurosaki]], along with Nyx Pine, recognized the intricate logistical challenges inherent in mining operations, especially in the vast expanse of space where resources are scattered across diverse celestial bodies. Understanding the critical importance of efficient coordination, communication, and support mechanisms, they envisioned the Sentinel-class Control Frigate as a revolutionary solution to address these complexities and streamline mining operations across the Mining Guild's expansive territories. Central to their vision was the realization that the frigate could serve as a central command and control center, orchestrating the intricate ballet of mining drones, robotic bodies, and support craft with unparalleled precision and efficiency. By leveraging advanced communication networks, data analytics, and automation systems, the frigate would act as the nerve center of mining operations, facilitating real-time coordination, resource allocation, and strategic decision-making. The integration of cutting-edge technology and sophisticated software platforms would enable the frigate to monitor and manage the entire spectrum of mining activities, from prospecting and excavation to resource processing and transport. Automated algorithms and AI-driven systems would optimize resource utilization, prioritize extraction targets, and adapt to changing environmental conditions, ensuring maximum productivity and profitability for the Mining Guild. Furthermore, the frigate's role as a command and control center would extend beyond mere logistical coordination to encompass strategic planning, risk management, and crisis response. Astrid, Aeta, and Nyx foresaw the frigate as a dynamic hub of innovation and adaptability, capable of anticipating challenges, mitigating risks, and capitalizing on emerging opportunities in the ever-evolving landscape of resource extraction and space exploration. Through centralized management and oversight, the Sentinel-class Control Frigate would revolutionize the efficiency, safety, and sustainability of mining operations, positioning the Mining Guild as a pioneering force in the galactic economy. Astrid, Aeta, and Nyx's visionary leadership and collaborative spirit laid the foundation for a new era of prosperity and progress, where the boundless riches of the cosmos are within reach, guided by the guiding light of innovation and ingenuity. In addition to the imperative for efficient coordination and oversight of mining operations, Astrid, Aeta, and Nyx recognized another critical need within the Mining Guild's fleet: the absence of a dedicated civilian frigate. This realization stemmed from a strategic assessment of the guild's existing fleet composition and operational requirements, highlighting a glaring gap that needed to be addressed to fully capitalize on the guild's expansionary ambitions and secure its position as a dominant player in the galactic mining sector. The decision to designate the Sentinel-class Control ship as a frigate-type vessel was driven by a combination of strategic foresight and operational necessity. By filling this crucial void in the guild's fleet structure, the Sentinel-class Frigate not only provided a versatile platform for command and control but also unlocked a myriad of strategic advantages and opportunities for the Mining Guild. Foremost among these advantages was the ability to expand the guild's resource extraction capabilities and secure lucrative mining contracts across known and uncharted regions of space. As a frigate-class vessel, the Sentinel-class Control ship offered the agility, versatility, and firepower necessary to establish a presence in remote star systems, navigate through hostile environments, and assert the guild's authority over valuable mining territories. Moreover, the frigate's role as a command and control center facilitated the deployment of Pegasus-class ships for prospecting missions, enabling the guild to identify and assess potential mineral deposits with unparalleled accuracy and efficiency. Armed with this intelligence, the guild could strategically allocate resources, prioritize extraction targets, and exploit lucrative mineral reserves, thereby fueling its economic growth and consolidating its strategic interests in the galactic market. Furthermore, the frigate's versatility and adaptability made it a valuable asset for a wide range of missions and operations beyond resource extraction. From escorting convoys and defending mining outposts to conducting reconnaissance and humanitarian missions, the Sentinel-class Control ship played a pivotal role in safeguarding the guild's interests, promoting stability, and advancing its influence across the cosmos. In essence, the decision to develop the Sentinel-class Control Frigate as a frigate-type vessel was a strategic masterstroke that not only filled a critical gap in the Mining Guild's fleet but also unlocked a wealth of opportunities for expansion, innovation, and prosperity. Astrid, Aeta, and Nyx's visionary leadership and strategic acumen ensured that the frigate became not just a symbol of the guild's power and ambition but also a cornerstone of its success and resilience in the dynamic and competitive landscape of the galactic mining industry. ==== Description ==== Sentinel Class Control Frigate is a starship that serves the [[corp:Mining_Guild:]] as a sort of Central Command Hub, for overseeing all mining activities. It is equipped with advanced long-range sensors and communication arrays, surveillance technology, and remote control interfaces to monitor and direct the actions of mining robots and drones from a safe distance. It features a large hangar bay for storing and launching various types of drones, as well as facilities such as workshops, storage facilities, and 3D printing capabilities to maintain and upgrade mining robots and drones on-site.for maintenance and repair. Its equipped with advanced automation systems and virtual reality interfaces, allowing operators to remotely control robots and drones with precision and efficiency. It would also serve as a relay station for transmitting data between the mining site and other support vessels. ==== Mission Specialization ==== Here are good uses of the Ship. **Specialization 1: Deep Space Mining Operations Support** In this specialization, the frigate is tailored to support deep space mining operations in remote or hazardous locations: * Drone Management: The frigate serves as a central command hub for controlling fleets of mining drones and armies of robots, overseeing their activities, and optimizing their efficiency in extracting resources from asteroids, comets, or other celestial bodies. * Robotic Body Coordination: It facilitates the safe operation of robotic bodies by miners, providing a secure interface for remote control and monitoring of these advanced machinery during resource extraction and processing tasks. * Exploration and Surveying: Equipped with advanced sensor arrays, the frigate conducts extensive exploration and surveying missions to identify new mining sites, assess resource quality, and analyze geological data for potential exploitation. * Logistics and Supply Chain Management: It manages logistics and supply chain operations, coordinating the transportation of mined resources, fuel, and supplies between mining outposts, processing facilities, and distribution centers across vast distances in space. * Emergency Response: In the event of emergencies such as equipment malfunctions, asteroid impacts, or hostile encounters, the frigate acts as a rapid response unit, deploying rescue drones, providing medical assistance, and coordinating evacuation procedures to ensure the safety of personnel and assets. **Specialization 2: Planetary Mining Colony Support** This specialization focuses on providing essential support services to mining colonies established on planetary surfaces: * Surface Deployment: The frigate transports and deploys mining equipment, infrastructure modules, and personnel to remote planetary mining sites, facilitating the establishment and expansion of mining colonies in inhospitable environments. * Environmental Monitoring: It monitors environmental conditions such as atmospheric composition, seismic activity, and weather patterns, ensuring the safety and well-being of personnel working on the planetary surface. * Resource Extraction Oversight: The frigate oversees the extraction of resources from the planetary surface, coordinating the activities of mining drones, robotic excavators, and ore processing facilities to maximize productivity and minimize environmental impact. * Infrastructure Maintenance: It provides maintenance and repair services for essential infrastructure components such as power generators, life support systems, and transportation networks, ensuring the smooth operation of the mining colony. * Security and Defense: In addition to its primary role in support and coordination, the frigate serves as a security outpost, patrolling the airspace and perimeter of the mining colony, deterring potential threats, and responding to security incidents with rapid deployment of defense drones and emergency assistance. ==== Appearance ==== {{ :corp:mining_guild:starships:sentinel.png?400|}} The exterior appearance of a Sentinel Class Control Frigate designed for overseeing mining operations and controlling drones combines practicality with advanced technology. Here's a description of its possible exterior appearance: * Sleek Hull: The frigate's hull has a streamlined and aerodynamic shape, optimized for efficiency during travel through space. It’s made of durable materials capable of withstanding impacts and extreme conditions encountered in mining environments. * Integrated Sensor Arrays: Embedded along the surface of the hull are arrays of sensors and scanners, designed to monitor the surrounding environment for potential hazards, resource deposits, and activity from drones and robotic bodies. * Modular Attachments: Certain sections of the hull may feature modular attachment points or docking ports to accommodate additional equipment, such as supplementary sensor arrays, external armaments for defense, or specialized mining tools. * Distinctive Markings: The frigate bears the markings and insignias of the Mining Guild or the company operating it, indicating its affiliation and purpose. These markings could be prominently displayed on the hull, easily visible from a distance. * Visible Communication Antennae: Positioned strategically on the hull are communication antennae and relay dishes, allowing the frigate to establish and maintain long-range communication links with mining outposts, support vessels, and headquarters. * Glowing Accents: To highlight its advanced technology and futuristic design, the frigate features subtle glowing accents along the edges of the hull, emanating soft light in contrasting colors. * Reinforced Sections: Certain sections of the hull, particularly those housing critical systems such as the command center and docking bays, appear reinforced and fortified, providing added protection against potential threats. * Symmetrical Design: The exterior layout of the frigate exhibit a symmetrical design, with balanced proportions and a sense of harmony in its overall appearance, reflecting its purpose as a versatile and efficient vessel. * Subdued Color Scheme: The color scheme of the frigate's exterior leans towards industrial tones such as metallic grays, with accents of deep blues or greens to evoke a sense of professionalism and technological sophistication. * External Lighting: Soft exterior lighting fixtures are strategically positioned along the hull to enhance visibility during operations in low-light conditions, serving both functional and aesthetic purposes. Overall, the exterior appearance of the Sentinel Class Control Frigate would convey a sense of power, efficiency, and technological prowess, befitting its role as a central hub for overseeing and coordinating mining operations in the depths of space. ===== Statistics and Performance ===== General notes about ship stats and performance ==== General ==== General notes about armor stats and performance ^ General Statistics for the NAME OF YOUR STARSHIP CLASS ^^ ^ Year Introduced | 6th year of NDC | ^ Class/Nomenclature | MG-AF1a | ^ Designers | [[characters:ndc:nyx_pine]], [[characters:mg:aeta_kurosaki]] | ^ Manufacturer | [[corp:mining_guild:]] | ^ Fielded By | [[corp:mining_guild:]] [[corp:mining_guild:company_operations#miners|Miners]] | ^ Range | Typically, crew for weeks to months without requiring resupply. | ^ Maintenance Cycle | After every mission. | ^ Lifespan | Could reasonably serve for several decades ((Depending on maintenance, and upgrades)) | ^ Pricing | Several billion KS | === Maintenance Checks === For a frigate of this caliber, routine maintenance tasks might include: * **Daily Checks**: Basic inspections and system checks to ensure all critical systems are functioning properly. * **Weekly Inspections**: More thorough inspections of key components, including propulsion systems, power generation systems, and life support systems. * **Monthly Servicing**: Scheduled maintenance activities such as lubrication, calibration, and minor repairs on various subsystems and equipment. * **Quarterly Overhauls**: Comprehensive inspections and servicing of major systems, including propulsion engines, navigation systems, and communication equipment. * **Annual Refits**: Major maintenance periods involving system upgrades, component replacements, and structural inspections to maintain operational readiness and adapt to evolving technological advancements. * ** As-needed Repairs**: Unscheduled maintenance tasks to address malfunctions, equipment failures, or damage incurred during operations. The frequency and scope of maintenance would be determined by factors such as mission duration, operational tempo, environmental stresses ((e.g., exposure to space debris or extreme temperatures)), and the manufacturer's recommendations. Additionally, predictive maintenance techniques aided by advanced diagnostics and monitoring systems, may be employed to anticipate and address potential issues before they escalate into major problems. ==== Passengers ==== * Crew: 15 to 25 crew members * Maximum Capacity: There are accommodations for 50 people. About 150 people can fit aboard in an emergency, but the ship would be extremely cramped. **Crew** ^ Crew ^ number^ Info ^ ^ Commanding Officer (Captain)|1| Responsible for overall command, decision-making, and coordination of operations.| ^ Executive Officer (XO) |1| Assists the commanding officer in managing crew activities, overseeing departments, and handling administrative tasks.| ^ Navigation/Communications Officer|1| Responsible for navigation, communication with other vessels and bases, and coordination of rendezvous and docking operations.| ^Engineering Officer |1-2| Oversees the operation and maintenance of propulsion systems, power generation, and other engineering subsystems.| ^Sensor/Science Officer |1| Manages sensor systems, collects and analyzes data on celestial bodies, resource deposits, and environmental conditions.| ^ Drone Control Operators|2-4| Monitor and control fleets of mining drones, coordinate their activities, and oversee automated mining operations.| ^ Robotic Body Operators|2-4| Operate and supervise robotic bodies used by miners for resource extraction and processing tasks| ^ Medical Officer |1| Provides medical care, conducts health assessments, and oversees the ship's medical facilities.| ^ Security Officer |1| Manages onboard security, conducts security patrols, and responds to potential threats or emergencies.| ^ Maintenance Technicians |2-4| Perform routine maintenance, repairs, and inspections on various ship systems and equipment.| ^ Logistics/Supply Officer |1| Manages inventory, procurement, and distribution of supplies, equipment, and spare parts.| ^ Support Personnel (Cooks, Administrators, etc.)|variable| Additional personnel to support day-to-day operations, such as food preparation, administrative tasks, and other logistical needs.| ==== Dimensions ==== * Length: Approximately 200 meters (656 feet) * Width: Approximately 80 meters (262 feet) * Height: Approximately 40 meters (131 feet) * Decks: 3-5 (2.5 to 4 meters (8 to 13 feet) in height each) ==== Propulsion and Range ==== * Continuum Distortion Drive: 15,000c * Hyperspace Fold Drive: 0.25ly/m * Sublight Engines: 0.30c * Range: Unlimited * Lifespan: 30 Years * Refit Cycle: 5 years ==== Damage Capacity ==== Tier: 11 Shields: 11 ===== Inside the Ship ===== ==== Deck Layout ==== * Main Deck: This deck would house essential facilities such as the **command center**, **bridge** ,** mess hall**, **medical bay**. * Upper Decks: These decks house, **crew quarters**, **specialized workspaces**(( drone control rooms, robotics workshops)), recreational areas, and possibly guest accommodations or diplomatic facilities. * Lower Deck: These decks house **engineering spaces**, **cargo holds**, **maintenance areas**, and possibly **extra storage facilities** for mining equipment and supplies. ==== Compartment Layouts ==== Below are some Compartments of the Sentinel-class Control Frigate === Bridge === {{ :corp:mining_guild:location:mgsentinelbridge.png?400|}}The Bridge of the Sentinel Class Control Frigate is the nerve center of the ship, where critical decisions are made, and operations are coordinated. Here's a detailed expansion on its components and layout: * **Navigation Consoles** Positioned at strategic locations around the Bridge, navigation consoles display real-time data on the ship's position, trajectory, and course adjustments. Navigation officers monitor celestial maps, coordinate course corrections, and calculate optimal routes for mining expeditions. * **Communication Stations** Banks of communication stations line one side of the Bridge, facilitating constant contact with mining outposts, support vessels, and headquarters. Communication officers relay messages, coordinate with other ships, and manage encrypted channels for secure communications. * **Defense Stations** Defensive consoles are situated near the rear of the Bridge, overseeing the ship's defensive systems, including shields, point-defense turrets, and countermeasures. Defense officers monitor threat assessments, activate defensive protocols, and coordinate with tactical teams during combat or security incidents. * **Engineering Consoles** Along the opposite side of the Bridge from the communication stations, engineering consoles provide real-time monitoring and control of propulsion systems, power distribution, and auxiliary systems. Engineering officers optimize energy usage, diagnose system malfunctions, and implement emergency repairs to keep the ship operational. * **Captain's Chair** Positioned at the center of the Bridge, the captain's chair is a commanding seat of authority and responsibility. The captain oversees all ship operations, makes critical decisions, and communicates orders to department heads and crew members. From this vantage point, the captain maintains situational awareness, assesses incoming data, and ensures the safety and efficiency of the mission. * **XO's Seat** Adjacent to the captain's chair is the seat of the Executive Officer (XO), the second-in-command of the ship. The XO assists the captain in managing crew activities, overseeing departments, and handling administrative tasks. Working closely with the captain, the XO provides counsel, implements directives, and ensures effective communication and coordination across the ship. * **Command Console** At the front of the Bridge, a large command console integrates data feeds from navigation, communication, defense, and engineering systems, providing a comprehensive overview of the ship's status and surroundings. From this console, the captain and XO monitor mission progress, evaluate threats, and issue commands to departments and crew members. Overall, the Bridge serves as the focal point of decision-making and coordination aboard the Sentinel Class Control Frigate, where skilled officers work together to ensure the success of mining operations and the safety of the crew in the vast reaches of space. === Ship Docking Bays === The frigate features spacious docking bays equipped with docking clamps or magnetic locks to accommodate larger vessels, such as cargo transports, mining shuttles, or visiting spacecraft. Docking bays would serve multiple purposes, including: * **Resource Transfer**: Incoming mining shuttles or cargo transports could dock directly with the frigate to offload mined resources, supplies, and personnel. * **Repair and Maintenance**: Damaged or malfunctioning spacecraft could dock for repairs and maintenance, utilizing the frigate's facilities and expertise to restore functionality. * **Emergency Evacuation** In the event of emergencies aboard the frigate or at mining outposts, docking bays could serve as points of embarkation and disembarkation for evacuees and rescue shuttles. === Airlocks === Distributed throughout the hull of the frigate, airlocks provide access points for crew members and facilitate EVA (Extra-Vehicular Activity) operations. Airlocks are essential for: * **External Maintenance** Crew members performing maintenance tasks or repairs on the exterior of the frigate use airlocks to access the hull safely. * **Spacewalks** During mining operations or in response to emergencies, crew members may need to perform spacewalks to inspect equipment, deploy payloads, or conduct repairs outside the frigate. * **Boarding Operations** Airlocks can be used for boarding operations when the frigate approaches other vessels or docking facilities, providing controlled access for crew members and ensuring environmental integrity. * **Shuttles** While the frigate itself would have docking facilities, crew members may also utilize smaller shuttlecraft for transportation to and from the frigate, especially during routine operations or when visiting remote mining sites. Shuttles provide flexibility and efficiency for crew mobility, allowing for more frequent trips and reducing the strain on the frigate's docking bays. ==== Crew Compartment ==== The Crew Compartment of the Sentinel-class Control Frigate provides a comfortable and functional living environment for the crew members, ensuring their physical health, morale, and readiness for the demanding tasks of space exploration and mining operations. It serves as a home away from home, fostering teamwork, camaraderie, and resilience among the crew in the vast expanse of the cosmos. Below is what can be found here. === Crew Quarters === The Crew Quarters are individual or shared living spaces allocated for the Captain, Executive Officer (XO), and crew members. Each crew member has their own personal space equipped with a sleeping berth, storage lockers, and basic amenities for comfort and privacy. The quarters are designed to optimize space efficiency while providing a comfortable environment for rest and relaxation during off-duty hours. === Mess Hall === The Medical Bay is a fully equipped facility staffed by trained medical personnel, including doctors, nurses, and medics. It provides comprehensive healthcare services, including routine check-ups, first aid treatment, surgical procedures, and medical emergencies. Equipped with advanced diagnostic equipment, treatment rooms, and recovery beds, the Medical Bay ensures the health and well-being of the crew members throughout their mission. === Medical Bay === The Medical Bay is a fully equipped facility staffed by trained medical personnel, including doctors, nurses, and medics. It provides comprehensive healthcare services, including routine check-ups, first aid treatment, surgical procedures, and medical emergencies. Equipped with advanced diagnostic equipment, treatment rooms, and recovery beds, the Medical Bay ensures the health and well-being of the crew members throughout their mission. === Recreation Room === Recreation Area: The Recreation Area offers crew members opportunities for leisure and relaxation during their downtime. It features amenities such as exercise equipment, entertainment systems, gaming consoles, and reading materials to cater to diverse interests and preferences. Crew members can engage in recreational activities, socialize with colleagues, and maintain physical and mental well-being while away from their duties. === Armory === The Armory is a secure compartment at the end of the Crew Compartment, housing weapons, ammunition, and security equipment for the protection of the ship and its crew. Accessible only to authorized personnel, the Armory stores a variety of defensive armaments, including firearms, energy weapons, and non-lethal deterrents. It also contains tactical gear, protective equipment, and emergency supplies to enhance the ship's security posture and readiness for potential threats. ==== Cargo Hold ==== {{:corp:mining_guild:location:mgmagpie1.png?400 |}}** Mining Equipment Storage**: This section of the storage space is dedicated to storing various types of mining equipment used in resource extraction operations. It includes storage racks, compartments, and secure containers for tools, machinery, and specialized mining hardware such as drills, excavators, and processing units. The layout is designed to maximize accessibility and organization, with equipment categorized and labeled for quick retrieval and deployment during mining expeditions. **Supplies Stockpile**: Another portion of the storage space is allocated for storing supplies necessary for sustaining mining operations and supporting the crew onboard the frigate. This includes consumables such as food, water, medical supplies, spare parts, and maintenance materials. The supplies stockpile is regularly replenished during resupply missions or when visiting mining outposts, ensuring the frigate remains self-sufficient and prepared for extended missions in deep space. **Extracted Resources Repository**: Once resources are mined and processed, they are stored in designated storage compartments within the frigate. These compartments are equipped with secure containment systems, environmental controls, and monitoring sensors to preserve the integrity and quality of the extracted resources during transit. Depending on the nature of the resources, storage containers may vary in size, shape, and configuration to accommodate different types of ores, minerals, or raw materials. **Cargo Handling Equipment**: To facilitate the loading and unloading of mining equipment, supplies, and extracted resources, the storage space is equipped with cargo handling equipment such as hoists, cranes, and conveyors. These systems streamline logistics operations, allowing for efficient transfer of cargo between the frigate and mining outposts, support vessels, or planetary surfaces. Crew members trained in cargo handling procedures oversee these operations to ensure safety and efficiency. **Inventory Management Systems**: To maintain accurate inventory records and track the movement of equipment, supplies, and resources, the storage space is integrated with inventory management systems. These systems utilize barcode scanners, RFID tags, and computerized databases to monitor stock levels, track usage patterns, and generate replenishment orders as needed. Real-time data feeds enable crew members to manage inventory effectively and anticipate logistical requirements for upcoming missions. === Crew Storage Areas === Adjacent to the Mission Storage Areas, these sections of the Cargo Hold are reserved for storing personal belongings, equipment, and supplies belonging to the crew members onboard the frigate. Crew Storage Areas may include: * **Personal Belongings**: Individual storage lockers or compartments assigned to each crew member for storing personal belongings, uniforms, equipment, and other items needed during the mission. * **Workshop and Maintenance Space**: Dedicated areas equipped with workbenches, tools, and equipment for crew members to perform routine maintenance tasks, repairs, and modifications on their personal gear or equipment. * **Recreational Equipment**: Storage space for recreational equipment and amenities, such as sports gear, hobby materials, and entertainment devices, to enhance crew morale and well-being during off-duty hours. * **Cargo Handling Equipment**: The Cargo Hold is equipped with cargo handling equipment, including hoists, cranes, and conveyor systems, to facilitate the loading, unloading, and movement of cargo within the hold. Trained crew members oversee cargo handling operations, ensuring safe and efficient transport of mission-critical equipment and crew belongings. * **Environmental Controls**: To preserve the integrity of stored cargo and ensure optimal storage conditions, the Cargo Hold is equipped with environmental control systems. These systems regulate temperature, humidity, and atmospheric conditions within the hold to prevent damage or degradation of sensitive equipment, supplies, and payloads. ==== Control Center ==== The central command center of the Sentinel-class Control Frigate is a pivotal hub of activity, housing state-of-the-art technology and equipment essential for overseeing and coordinating mining operations in deep space. === Robotic Drone Control Room === {{ :corp:mining_guild:technology:sentinel_pods.png?400|}}The Robotic Drone Control Room serves as a specialized area within the Sentinel-class Control Frigate, seamlessly connected to the central command center. Here's an expansion on this innovative facility: * **Integration with Control Center**: The Robotic Drone Control Room is directly linked to the Control Center, allowing for seamless coordination and integration of drone and robotic body operations into the overall mission strategy. Operators stationed in the control room work closely with command center personnel to execute mining tasks efficiently and effectively. * **Floor-to-Ceiling Pods**: Within the control room, floor-to-ceiling pods line the walls, each serving as an interface for miners to connect with robotic bodies. These pods provide a secure and immersive environment for miners to interface with the frigate's advanced neural interface technology, enabling them to remotely control robotic bodies with unprecedented precision and dexterity. * **Variety of Robotic Bodies**: The Robotic Drone Control Room supports a wide range of robotic bodies, tailored to suit various mining tasks and environments. This includes humanoid robots equipped with the Mining Guild's ANT power armor, providing enhanced strength, mobility, and protection for miners operating in hazardous conditions. Additionally, smaller robotic drones, such as the Moltek Biomechanical Mole Drone, are available for precision drilling, excavation, and exploration tasks in confined spaces or challenging terrain. * **Training and Simulation Facilities**: The control room features training and simulation facilities where miners can familiarize themselves with the operation of robotic bodies, hone their skills, and simulate mining scenarios before undertaking actual missions. Virtual reality simulations and immersive training programs provide realistic scenarios to prepare miners for the challenges they may encounter in the field. Overall, the Robotic Drone Control Room represents a cutting-edge fusion of technology and human expertise, enabling miners aboard the Sentinel-class Control Frigate to extend their reach into the depths of space and extract valuable resources with unprecedented efficiency, safety, and precision. === Drone and Robot Docking Bays === The Frigate has spacious docking bays equipped with maintenance facilities and charging stations specifically designed to accommodate various types of drones and robotic bodies used in mining operations. It is connected to the Robotic Workshops as they use the components there, to fix the robotic bodies, or the drones. === Deployment Section === The Deployment Section of the Sentinel-class Control Frigate serves as the gateway for robotic drones and bodies to embark on mining missions under the guidance of miners or the ship's AI. Here's an expansion on this crucial area: **Connection to Robotic Docking Bays**: The Deployment Section is seamlessly connected to the Robotic Docking Bays, facilitating the smooth transition of robotic assets from the frigate to external environments. Operators and automated systems coordinate the deployment process, ensuring efficiency and precision in sending drones and robotic bodies to designated mining sites. **Lifts for Robotic Deployment**: Within the Deployment Section, specialized lifts based on cargo lift technology provide a means for robotic bodies to exit the frigate and descend to planetary surfaces or the ship's hangar bay. These lifts are designed to accommodate the size and weight of various robotic models, ensuring safe and controlled descent during deployment. **Integration with Stork-class Transport Ships**: Upon reaching the hangar bay, robotic bodies destined for remote mining sites are transferred to Stork-class Transport ships waiting for deployment. These transport ships serve as shuttles, ferrying robotic assets from the frigate to designated mining locations across planetary surfaces or asteroid fields. Crew members or automated systems oversee the loading process, securing robotic bodies within the transport ships for safe transit. **Secured Cases for Small Drones**: Smaller drones, such as the Moltek Biomechanical Mole Drone and other compact models, are stored in specialized cases designed for deployment to mining sites. These cases provide secure containment and protection for drones during transit and are equipped with mechanisms for easy opening and release upon arrival at the designated deployment zone. **Deployment Protocols and Safety Measures**: Before deployment, operators or the ship's AI verify mission parameters, assess environmental conditions, and execute pre-flight checks to ensure the readiness of robotic assets for deployment. Safety protocols are in place to mitigate risks associated with planetary descent, atmospheric entry, and surface landing, ensuring the integrity of robotic assets and minimizing the potential for damage or malfunction during deployment operations. Overall, the Deployment Section plays a critical role in the Sentinel-class Control Frigate's mission to extend its reach into remote mining sites, leveraging advanced deployment systems and protocols to ensure the safe and efficient deployment of robotic assets for resource extraction operations. ===== Engineering Room ===== {{ :corp:mining_guild:location:mgmagpieengineer.png?400|}}The Engineering Section of the Sentinel-class Control Frigate is a bustling hub of activity, housing essential systems and equipment crucial for the frigate's propulsion, power generation, and overall functionality. Here's an expansion on this vital area: ==== Propulsion Systems ==== Located at the rear of the Engineering Section are the frigate's propulsion systems, including thrusters, maneuvering engines, and navigation controls. Engineers oversee the maintenance, calibration, and operation of these systems to ensure optimal performance and maneuverability during transit and docking maneuvers. === Power Generator === Positioned closer to the middle of the Engineering Section is the frigate's power generator, which provides the energy necessary to power onboard systems, propulsion systems, life support systems, and other critical subsystems. Engineers monitor power output, fuel consumption, and system efficiency to maintain a reliable power supply throughout the frigate's missions. === Bright Lighting and Holographic Displays === The Engineering Section is brightly illuminated to provide optimal visibility for engineers of all species working in the area. Special lighting fixtures are installed to ensure even illumination throughout the section, reducing shadows and enhancing visibility during maintenance and repair tasks. Additionally, holographic displays are integrated into workstations and equipment panels, providing engineers with real-time data, schematics, and diagnostics relevant to the systems or hardware they are working on. These displays offer interactive interfaces and visual aids to streamline troubleshooting, enhance situational awareness, and expedite maintenance procedures. === Other places in the Engineering Section === Surrounding the power generator are various pieces of critical engineering equipment, * **Life Support Systems**: Equipment responsible for regulating air circulation, temperature control, and atmospheric composition within the frigate to maintain a habitable environment for crew members. * **Cooling Systems**: Heat management systems and cooling mechanisms to dissipate excess heat generated by propulsion systems, power generators, and other onboard equipment. * **Auxiliary Systems**: Backup systems, redundancy measures, and emergency equipment to ensure operational continuity and resilience in the event of system failures or malfunctions. * **Environmental Controls**: Systems for monitoring and controlling environmental factors such as humidity, radiation levels, and electromagnetic interference to safeguard crew health and equipment integrity. ==== Robotics Workshop==== {{ :corp:mining_guild:location:mgrobotics_lab.png?400|}}The Robotic Workshops on the Sentinel-class Control Frigate are specialized facilities dedicated to the maintenance, repair, and upgrading of drones and robotic bodies essential for mining operations. The workshops are equipped with a wide range of specialized tools and equipment tailored for the maintenance and repair of drones and robotic bodies. These include: * **Diagnostic Tools** Advanced diagnostic equipment for identifying faults, malfunctions, and wear in robotic components, enabling engineers to pinpoint issues quickly and accurately. * **Repair Stations** Workstations equipped with tools, soldering stations, and precision instruments for performing intricate repairs on robotic systems, circuitry, and mechanical components. * **Testing Facilities**: Testing chambers and simulation environments for conducting functional tests, stress tests, and performance evaluations on repaired or upgraded robotic bodies before returning them to active duty. * **Fabrication Devices** The workshops feature fabrication devices capable of turning raw materials, such as metal alloys, polymers, and composites, into custom parts and components needed for maintenance, repair, or upgrades. These devices include: * **3D Printers** Additive manufacturing machines capable of producing intricate parts with high precision and resolution, allowing engineers to create replacement components on-demand and reduce downtime for repairs. * **CNC Machines**: Computer Numerical Control (CNC) machines for machining, milling, and shaping metal and other materials into precise shapes and dimensions, ensuring compatibility and functionality with existing robotic systems. === Upgrading Facilities === In addition to maintenance and repair capabilities, the workshops offer facilities for upgrading and enhancing robotic bodies used in mining operations. Engineers can: * **Install New Components** Integrate upgraded sensors, actuators, processors, and other hardware components into existing robotic bodies to enhance performance, efficiency, and capabilities. * **Update Software** Install software updates, patches, and firmware revisions to improve functionality, address security vulnerabilities, and implement new features or operational modes for robotic systems. * **Perform Calibration and Tuning** Fine-tune and calibrate robotic systems to optimize performance, accuracy, and responsiveness in various mining environments and operational scenarios. Overall, the Robotic Workshops play a critical role in ensuring the operational readiness and effectiveness of robotic assets deployed by the Sentinel-class Control Frigate. By providing comprehensive maintenance, repair, and upgrading services, these facilities enable the frigate to maintain a high level of operational capability and reliability throughout its missions in deep space. ===== Other Parts of the Frigate ===== Below are additional sections of the ship. ==== Science Lab ==== The Science Lab facilities aboard the Sentinel-class Control Frigate are dedicated spaces equipped with state-of-the-art equipment and resources for conducting scientific research and analysis. Here's an expansion on these facilities: === Research Equipment === The Science Lab is outfitted with a wide array of research equipment to facilitate diverse scientific investigations related to mining operations and space exploration. This equipment includes: * **Microscopes**: High-resolution optical and electron microscopes for examining geological samples, mineral structures, and biological specimens at the microscopic level. * **Spectrometers**: Spectroscopic instruments capable of analyzing the composition, elemental makeup, and molecular characteristics of geological materials, gases, and liquids. * **Chromatographs**: Gas and liquid chromatography systems for separating and analyzing complex mixtures of organic and inorganic compounds, enabling the identification of trace elements and chemical compounds in samples. * **X-ray Diffraction (XRD) Machines**: XRD machines for determining the crystalline structure and phase composition of minerals and crystalline materials, providing insights into their geological origins and properties. === Sample Processing and Preparation === The Science Lab is equipped with facilities for processing and preparing geological samples collected during mining expeditions. These facilities include: * **Sample Preparation Stations**: Workstations equipped with tools, equipment, and safety measures for cutting, grinding, and polishing rock samples to prepare thin sections and polished surfaces for analysis. * **Sample Storage**: Secure storage areas and sample repositories for cataloging, labeling, and archiving geological samples collected from various mining sites and exploration missions. * **Data Analysis and Visualization**: Advanced data analysis and visualization tools are available in the Science Lab to interpret and visualize geological data collected during mining expeditions. These tools include: * **Geographic Information Systems (GIS)**: GIS software for mapping and spatial analysis of geological features, mineral deposits, and terrain characteristics based on data collected from remote sensing and exploration surveys. * **Data Processing Software**: Specialized software packages for processing, filtering, and interpreting data obtained from sensors, spectrometers, and other analytical instruments, allowing researchers to extract meaningful insights and trends from raw data. * **Collaborative Workspace**: The Science Lab provides a collaborative workspace where scientists, geologists, and researchers can collaborate, share findings, and brainstorm ideas for further exploration and analysis. Interactive displays, whiteboards, and presentation tools facilitate communication and knowledge sharing among team members. Overall, the Science Lab facilities aboard the Sentinel-class Control Frigate serve as vital hubs for scientific inquiry and discovery, enabling researchers to unravel the mysteries of celestial bodies, understand geological processes, and unlock the potential of space resources for the benefit of humanity. ==== Hydroponics Bay ==== {{ :corp:mining_guild:location:mghydroponics_bay.png?400|}}The Hydroponics Bay aboard the Sentinel-class Control Frigate is a self-contained and sustainable environment designed to cultivate fresh food and plants to supplement the ship's provisions during extended missions in deep space. Here's an expansion on this essential facility: * **Hydroponic Growing Systems**: The Hydroponics Bay utilizes advanced hydroponic growing systems, which cultivate plants without soil by delivering nutrients directly to the plant roots suspended in a nutrient-rich water solution. * **Climate Control and Environmental Monitoring **: The Hydroponics Bay is equipped with climate control systems to regulate temperature, humidity, light levels, and air circulation within the growing environment. Environmental sensors and monitoring systems ensure that growing conditions remain optimal for plant growth and health, with parameters adjusted as needed to mimic natural conditions. * **Crop Variety and Rotation**: The Hydroponics Bay is capable of growing a diverse range of crops, including leafy greens, herbs, vegetables, fruits, and edible flowers, providing a balanced and nutritious diet for the crew. Crop rotation techniques are employed to maximize yield, minimize nutrient depletion, and prevent the buildup of pests and diseases, ensuring long-term sustainability and productivity. * **Supplementary Lighting**: In addition to natural sunlight filtered through specialized windows or skylights, supplementary lighting systems such as LED grow lights are used to provide consistent illumination and promote photosynthesis in the absence of natural light, enabling year-round crop production regardless of external conditions. * **Water Recycling and Filtration**: Water conservation measures are implemented to minimize water consumption and maximize efficiency within the Hydroponics Bay. Graywater recycling systems collect, filter, and recirculate water from plant trays and irrigation systems, reducing water waste and ensuring sustainable use of onboard resources. * **Fresh Food Production**: The Hydroponics Bay yields a steady supply of fresh, nutritious produce, including leafy greens, tomatoes, cucumbers, peppers, strawberries, and herbs, which are harvested and incorporated into the ship's menu to supplement packaged rations and enhance crew morale and well-being during long-duration missions. Overall, the Hydroponics Bay serves as a vital component of the Sentinel-class Control Frigate's life support infrastructure, providing a renewable source of fresh food and plants to sustain the crew's nutritional needs and promote a healthy and balanced diet throughout their journeys in the vastness of space. ==== Observation Deck ==== {{ :corp:mining_guild:location:mgcapital_observation.png?400|}}The Observation Deck of the Sentinel-class Control Frigate offers a captivating and immersive experience for crew members to observe celestial phenomena and mining operations from the safety and comfort of the ship's interior. Here's an expansion on this unique area: === Panoramic Viewing Area === The Observation Deck features a spacious and well-appointed viewing area with panoramic screens that provide expansive views of the surrounding space. Crew members can enjoy unobstructed vistas of distant stars, nebulae, planets, and other celestial wonders as the frigate traverses through the cosmos. * **Sensor Integration**: The screens on the Observation Deck are seamlessly integrated with the frigate's sensor array, which includes cameras, telescopes, lidar, radar, and other remote sensing instruments positioned on the exterior of the ship. These sensors capture data from the surrounding environment, which is then processed and displayed in real-time on the projection screens, allowing crew members to observe and analyze celestial phenomena and mining activities with remarkable detail and clarity. * **Educational and Recreational Space**: In addition to serving as a platform for observing and monitoring external events, the Observation Deck doubles as an educational and recreational space where crew members can learn about astronomy, geology, and space science, or simply unwind and appreciate the beauty of the cosmos. Interactive displays, informational panels, and multimedia presentations provide engaging content to enhance the crew's knowledge and appreciation of the universe. * **Comfort and Amenities**: The Observation Deck is designed with crew comfort in mind, featuring ergonomic seating, ambient lighting, and climate control systems to ensure a pleasant and relaxing environment for observation sessions. Refreshment stations, seating areas, and recreational amenities are also available to enhance the overall experience and promote crew well-being during extended periods of observation. Overall, the Observation Deck of the Sentinel-class Control Frigate offers a unique blend of entertainment, education, and scientific discovery, allowing crew members to marvel at the wonders of the universe while advancing the objectives of their mining missions in deep space. ==== Communications Hub ==== The Sentinel-class Control Frigate can serve as a communication relay between the mining operation, other support vessels, mining outposts, and headquarters ((or Branch Headquarters)). It has a powerful long-range communication system to ensure constant connectivity. ===== Ship Systems ===== ==== Armored Hull and Hull Integrated Systems ==== The Armored Hull and Hull Integrated Systems of the Sentinel-class Control Frigate represent a robust and resilient structural framework designed to ensure the safety, durability, and functionality of the ship in the harsh and unforgiving environment of deep space. Here are some key aspects to consider: * **Structural Integrity**: The Armored Hull forms the outer shell of the frigate, providing protection against micro-meteoroid impacts, space debris, radiation, and other hazards encountered during space travel and mining operations. Constructed from reinforced alloys and composite materials, the hull is engineered to withstand extreme pressures, temperatures, and environmental stresses encountered in space. * **Defensive Capabilities**: The Armored Hull incorporates defensive systems and measures to enhance the frigate's survivability and resilience in combat situations or hostile environments. This may include energy shields, armor plating, and reactive armor modules designed to deflect or absorb incoming projectiles, laser fire, and other forms of hostile aggression. * **Redundancy and Safety**: The Armored Hull is designed with redundancy and safety features to mitigate the risk of catastrophic failure and ensure the survivability of the ship and its crew in the event of system malfunctions, accidents, or emergencies. This may include compartmentalization, emergency bulkheads, and redundant systems for life support, propulsion, and power generation. * **Hull Integrated Systems**: The Hull Integrated Systems encompass a range of interconnected subsystems and components integrated directly into the structural framework of the frigate, optimizing space utilization, efficiency, and performance. These systems may include: * **Structural Support**: Load-bearing structures, trusses, and braces integrated into the hull to distribute weight, support equipment, and withstand external forces encountered during acceleration, deceleration, and maneuvering maneuvers. * **Modularity and Upgradeability**: The Armored Hull and Hull Integrated Systems are designed with modularity and upgradeability in mind, allowing for the integration of new technologies, weapons systems, sensors, and equipment as advancements are made in spacefaring technology. This ensures that the frigate remains adaptable, versatile, and capable of meeting evolving mission requirements and operational challenges in the dynamic environment of deep space. Overall, the Armored Hull and Hull Integrated Systems of the Sentinel-class Control Frigate represent the foundation of its strength, resilience, and operational effectiveness, providing the necessary protection, support, and functionality to undertake mining missions and exploration endeavors in the vastness of space with confidence and security. === Metal Alloy === The metal material composition of the hull of the Sentinel-class Control Frigate is a combination of advanced alloys and composite materials specifically engineered to withstand the rigors of space travel, mining operations, and potential encounters with hazards such as micro-meteoroids and space debris. Here's a speculative breakdown of the potential metal materials that could be used: * [[wp>Titanium]] Alloys: Titanium alloys are known for their high strength-to-weight ratio, corrosion resistance, and ability to withstand extreme temperatures. They are commonly used in aerospace applications where durability and lightweight construction are essential. * [[wp>Carbon Fiber Reinforced Polymers]] (CFRP): CFRP composites combine carbon fibers with polymer resins to create lightweight yet incredibly strong materials. CFRP is prized for its high tensile strength, stiffness, and resistance to fatigue, making it suitable for reinforcing critical structural components of the hull. * [[wp>Aramid Fiber Composites]]: Aramid fibers, such as Kevlar®, are renowned for their exceptional strength and impact resistance. Aramid composites are often used in ballistic armor applications and could be incorporated into the hull design to provide additional protection against high-velocity impacts and penetration. * [[materials:ultrite]]: offers a good balance of strength, durability, and affordability, making them suitable for various structural components of the hull. alloys may be used in conjunction with other materials to provide structural support and enhance overall integrity. * [[wp>Ceramic Matrix Composites]] (CMCs): CMCs consist of ceramic fibers embedded in a ceramic matrix, offering high temperature resistance, thermal stability, and wear resistance. CMCs could be utilized in areas of the hull subjected to extreme heat or abrasion, such as near propulsion systems or thruster exhausts. * [[wp>Reactive Armor Modules]]: Reactive armor modules composed of specialized metal alloys may be integrated into the hull to provide additional protection against kinetic energy penetrators and shaped charges, deflecting or disrupting incoming projectiles before they can breach the hull. Overall, the hull of the Sentinel-class Control Frigate would likely be a composite structure combining these and possibly other advanced materials, carefully selected and engineered to optimize strength, durability, weight efficiency, and resistance to various environmental and operational hazards encountered in deep space. ==== Computers and Electronics ==== {{user:charaa:ai_processor.png?300 }}The computers and electronics aboard the Sentinel-class Control Frigate represent a sophisticated array of systems and components essential for navigation, communication, automation, and mission control. Here's an overview of the key computer and electronic systems: === Artificial Intelligence (AI) Systems === AI systems augment crew capabilities by providing advanced data analysis, decision support, and automation capabilities. AI algorithms optimize operational efficiency, predict system performance, and assist with mission planning and execution, enhancing overall mission success and crew productivity. **Computer Network**: A sophisticated computer network interconnects various systems, subsystems, and components throughout the frigate. This network facilitates data exchange, information sharing, and system integration, enabling seamless operation and coordination of onboard systems. * ** Automation and Control Systems**: Automation and control systems manage and regulate critical functions and processes aboard the frigate. This includes propulsion control, life support management, power distribution, environmental control, and safety monitoring systems to ensure operational efficiency and crew safety. * **Navigation Systems**: Advanced navigation systems provide precise positioning, course plotting, and trajectory calculations for the frigate. This includes inertial navigation systems (INS), star trackers, GPS receivers, and celestial navigation aids to ensure accurate and reliable navigation in deep space. === Cyber Defense === * **Robust cybersecurity measures** protect the frigate's computer systems and electronic infrastructure from cyber threats, hacking attempts, and information breaches. This includes encryption protocols, firewalls, intrusion detection systems, and regular security audits to safeguard sensitive data and ensure system integrity. ===The Wolves === {{ user:charaa:red_ai.jpg?300}}The Wolves represent a specialized group of artificial intelligence (AI) entities integrated into the systems of the Sentinel-class Control Frigate, tasked with enhancing the ship's defensive capabilities through advanced Cyberwarfare tactics and strategies. Here's an expansion on the role and capabilities of the Wolves: **Advanced Cyberwarfare Capabilities**: The Wolves are equipped with sophisticated cyberwarfare tools and techniques designed to infiltrate, disrupt, and disable enemy ship systems. They leverage their advanced AI algorithms to exploit vulnerabilities in enemy ship networks, software, and electronic systems, gaining unauthorized access and compromising critical functions. **Integration with Gremlin-class Cyber-Warfare Suite**: The Wolves work in tandem with the Cyberwarfare, a specialized suite of cyberwarfare systems installed on the frigate. They augment the suite's capabilities by executing coordinated cyber-attacks, launching malware payloads, and conducting electronic warfare operations against enemy vessels, particularly pirate ships and hostile factions. ** Strategic Distraction Tactics**: The Wolves utilize distraction tactics to divert enemy attention and resources away from the frigate's primary objectives. They may generate false sensor readings, spoof communications, or create simulated threats to deceive and confuse enemy crews, forcing them to allocate resources to deal with perceived threats, thereby weakening their defensive posture and allowing the frigate to gain a tactical advantage. **Adaptive and Autonomous Behavior**: The Wolves exhibit adaptive and autonomous behavior, continuously analyzing enemy ship systems, tactics, and countermeasures to devise effective strategies and counter-responses in real-time. They dynamically adjust their tactics and priorities based on evolving battlefield conditions, maximizing their effectiveness in disrupting enemy operations and protecting the frigate. **Stealth and Concealment**: The Wolves operate with a high degree of stealth and concealment, minimizing their footprint and presence within enemy ship networks to avoid detection and retaliation. They employ encryption, obfuscation techniques, and stealth algorithms to mask their activities and evade detection by enemy cybersecurity measures. **Integration with Defensive Systems**: The Wolves are seamlessly integrated with the frigate's defensive systems, including firewalls, intrusion detection systems, and counter-hacking measures. They collaborate with onboard cybersecurity personnel and AI-driven defense platforms to coordinate defensive responses, neutralize cyber threats, and safeguard the integrity of the ship's systems and data. === Communication Systems === * Communication Systems: Integrated within the command center are advanced communication systems capable of establishing and maintaining long-range communication links with mining outposts, support vessels, and headquarters. These communication systems include: * Encryption Protocols: Secure encryption protocols safeguard communication channels, protecting sensitive data and ensuring the confidentiality and integrity of communications exchanged between the frigate and external entities. ==== Sensory Arrays ==== Surrounding the command center are arrays of advanced sensors and scanners strategically positioned to monitor the surrounding space, celestial bodies, and mining operations. These sensory arrays include: * Lidar and Radar Systems: High-resolution lidar (light detection and ranging) and radar systems scan the environment, providing detailed maps of asteroids, comets, and other celestial objects, as well as detecting potential hazards and obstacles. * Telescopic Observatories: Optical telescopes and infrared sensors capture images and spectral data of distant objects, allowing operators to study geological formations, identify resource-rich locations, and monitor celestial phenomena relevant to mining operations. * Satellite Uplinks: High-frequency satellite uplinks enable real-time data transmission and remote control capabilities, ensuring seamless communication between the frigate and remote mining facilities or command centers. * Data Processing Units: The command center houses powerful data processing units and supercomputers tasked with analyzing vast amounts of data collected from sensors, drones, and robotic bodies. These data processing units include: * Artificial Intelligence Algorithms: Advanced AI algorithms analyze sensor data, identify patterns, and make predictive assessments to optimize mining operations, detect anomalies, and anticipate potential threats or opportunities. * Data Visualization Tools: User-friendly data visualization tools and interfaces display real-time data streams, 3D maps, and interactive dashboards, enabling operators to monitor mining activities, assess resource availability, and make informed decisions. * [[corp:sachitech:technology:sachitech_tech-scanner]] An additional piece of technology that could be used to help how technology works. Overall, the central command center of the Sentinel-class Control Frigate serves as the nerve center of mining operations, leveraging advanced technology and skilled operators to maximize efficiency, safety, and productivity in the extraction of valuable resources from the depths of space. === Projection Screens === To ensure the safety of the crew and protect against the hazards of space exposure, the Observation Deck utilizes advanced projection screens that display real-time images and footage captured by sensors positioned around the exterior of the ship. These screens offer high-definition views of mining operations, celestial bodies, and space phenomena, providing crew members with a comprehensive understanding of their surroundings. === Mineral Scanner === The Mining Guild's own [[corp:mining_guild:systems:mineral_scanner]], is a sophisticated electronic system integrated into the Sentinel-class Control Frigate, providing advanced capabilities for detecting and analyzing mineral deposits and ore compositions within the vicinity of the ship. Here's an expansion on this essential component: * **Advanced Sensor Technology**: The Mineral Scanner is equipped with advanced sensor technology, including spectrometers, radiometers, and electromagnetic sensors, capable of detecting and analyzing the chemical composition, mineral content, and geological properties of nearby asteroids, planets, and celestial bodies. * **Real-time Data Analysis**: Upon activation, the Mineral Scanner rapidly collects and processes data from its sensor suite, generating real-time maps, charts, and reports detailing the distribution and abundance of various ores and minerals in the surrounding area. This information is displayed on the ship's consoles and interfaces, allowing miners and crew members to make informed decisions regarding resource extraction and mining operations. * **Ore Identification and Classification**: The Mineral Scanner utilizes pattern recognition algorithms and spectral analysis techniques to identify and classify different types of ores and minerals based on their unique electromagnetic signatures and spectral fingerprints. This enables miners to accurately assess the value and utility of resource deposits and prioritize extraction efforts accordingly. * **Range and Coverage**: The Mineral Scanner has an extensive range and coverage area, capable of scanning large volumes of space and detecting mineral deposits at considerable distances from the ship. This allows miners to identify promising mining sites and potential resource-rich asteroids or planetary bodies for further exploration and exploitation. * **Integration with Mining Operations**: The data obtained from the Mineral Scanner is seamlessly integrated into the frigate's mining operations, informing decision-making processes, resource allocation strategies, and mission planning efforts. Miners use the information provided by the scanner to optimize drilling locations, select mining targets, and maximize the efficiency and profitability of resource extraction activities. Overall, the Mining Guild's Mineral Scanner is an invaluable asset onboard the Sentinel-class Control Frigate, providing essential capabilities for prospecting, surveying, and assessing mineral resources in deep space. Its advanced sensor technology, real-time data analysis, and integration with mining operations contribute to the success and efficiency of mining missions conducted by the frigate and its crew. ===== Control Center Systems ===== * **Mind-Transfer Technology**: When miners enter the pods and initiate the connection process, their consciousness is temporarily transferred to the neural interface of the robotic bodies they control. This innovative mind-transfer technology allows miners to experience a seamless transition from their organic bodies to robotic avatars, effectively becoming one with the machines they operate. * **Operator Monitoring and Support**: Operators in the control room monitor miners' vital signs, neural activity, and environmental conditions throughout the mind-transfer process, ensuring their safety and well-being during remote operations. Advanced medical telemetry and support systems are available to intervene in case of emergencies or anomalies detected during mining operations. ==== Deployment Systems ==== Remote Monitoring and Control: Throughout the deployment process, operators in the control center and deployment section maintain real-time monitoring and control over robotic assets, providing oversight and support as needed. Advanced telemetry systems and communication links enable continuous communication between the frigate and deployed robotic assets, allowing for dynamic adjustments to mission parameters and contingencies as they arise. ==== Emergency Systems ==== The emergency systems of the Sentinel-class Control Frigate are designed to mitigate risks, ensure crew safety, and maintain operational readiness in the face of unforeseen challenges and emergencies accidents, or unexpected contingencies encountered during missions in deep space. By incorporating redundancy, automation, and comprehensive contingency planning, the frigate is well-prepared to handle emergencies and protect the lives and well-being of its crew members. === Emergency Power Backup === The frigate is equipped with redundant power generation systems and emergency backup batteries to provide essential electrical power in the event of primary power system failures or disruptions. Emergency power sources are strategically distributed throughout the ship to maintain critical systems, life support, and communications during power outages. === Life Support Redundancy === Life support systems feature redundancy and backup capabilities to sustain crew members in the event of environmental control failures, life support malfunctions, or atmospheric emergencies. Backup oxygen supplies, CO2 scrubbers, and temperature regulation systems ensure breathable air, comfortable temperatures, and safe living conditions for crew members during emergencies. === Emergency Evacuation Procedures === The frigate has established emergency evacuation procedures and protocols to facilitate rapid and orderly evacuation of crew members in the event of hull breaches, critical system failures, or imminent threats to the ship's integrity. Escape pods, emergency airlocks, and evacuation routes are clearly marked and readily accessible to crew members in all areas of the ship. === Hull Integrity Monitoring === Advanced hull integrity monitoring systems continuously monitor the structural integrity of the frigate's hull, bulkheads, and compartments, detecting signs of damage, breaches, or stress fractures that could compromise the ship's safety. Real-time alerts and alarms notify crew members and command personnel of critical issues requiring immediate attention or evacuation. === Fire Suppression Systems === Automated fire suppression systems are installed throughout the frigate to detect and extinguish fires in various compartments, equipment bays, and critical systems. These systems utilize inert gases, foam, or water mist to suppress fires quickly and prevent them from spreading, minimizing damage to the ship and ensuring crew safety. === Medical Facilities and First Aid Stations === The frigate is equipped with medical facilities, sickbays, and first aid stations staffed by trained medical personnel to provide emergency medical care, triage, and treatment for injured or incapacitated crew members. Medical supplies, trauma kits, and diagnostic equipment are readily available to address medical emergencies and injuries. === Emergency Communication Systems === Dedicated emergency communication systems enable crew members to signal distress, request assistance, and coordinate emergency response efforts with external parties, such as nearby ships, rescue teams, or command centers. These systems include distress beacons, emergency radio channels, and encrypted communication protocols to ensure reliable communication in crisis situations. === Damage Control Teams and Training === Trained damage control teams are assigned specific roles and responsibilities for responding to emergencies, conducting damage assessments, and implementing corrective actions to stabilize the ship and mitigate further damage. Regular drills, training exercises, and simulations prepare crew members to respond effectively to a wide range of emergency scenarios. ==== Life Support Systems ==== {{ :corp:mining_guild:technology:lifesupport_1.png?300|}}The life support systems of the Sentinel-class Control Frigate are integral to sustaining the health, comfort, and well-being of the crew during long-duration missions in deep space. These systems are designed to provide a habitable and safe environment by regulating atmospheric conditions, temperature, humidity, and air quality within the confines of the ship. Here's an overview of the key components and features of the life support systems: === Atmosphere Regulation=== Life support systems maintain a stable and breathable atmosphere within the ship by regulating the composition of gases, particularly oxygen and carbon dioxide. Oxygen generators produce oxygen through electrolysis or chemical reactions, while carbon dioxide scrubbers remove excess CO2 from the air to prevent buildup and maintain safe levels of oxygen for crew respiration. * **Cooling and Ventilation**: Ducts, vents, and thermal management systems integrated into the hull to regulate temperature, dissipate heat generated by onboard systems, and maintain optimal environmental conditions for crew comfort and equipment operation. === Cooling Systems === {{:corp:mining_guild:technology:life_support_2.png?300 |}} **Cooling and Ventilation**: Sophisticated Ducts, vents, and thermal management systems integrated into the hull to regulate temperature, dissipate heat generated by onboard systems, and maintain optimal environmental conditions for crew comfort and equipment operation. Thermal insulation materials and energy-efficient heating/cooling units ensure thermal stability and energy conservation, minimizing energy consumption while maximizing crew comfort. **Humidity Management**: Humidity levels are carefully controlled to prevent excessive dryness or moisture buildup within the ship. Humidifiers and dehumidifiers maintain optimal humidity levels, preventing discomfort, condensation, and moisture-related issues that could affect equipment performance and crew health. === Air Systems === * **Air Circulation and Ventilation**: Ventilation systems ensure the circulation of fresh air throughout the ship, preventing stagnation and maintaining air quality. Air filters remove contaminants, dust particles, and airborne pathogens, while fans and ducts distribute clean air to all compartments, ensuring uniform ventilation and circulation. * **Emergency Oxygen Supply**: Backup oxygen supplies are available in case of primary system failures or emergencies, providing a reserve of breathable air to sustain crew members until normal operations can be restored. Emergency oxygen masks, tanks, and distribution systems are strategically located throughout the ship for rapid deployment in crisis situations. === Additional Systems === * **Environmental Monitoring**: Comprehensive environmental monitoring systems continuously monitor atmospheric conditions, temperature, humidity, and air quality throughout the ship. Sensors and detectors alert crew members to any deviations from normal parameters, enabling prompt intervention and corrective action to maintain optimal life support conditions. * **Integration with Emergency Systems**: Life support systems are integrated with emergency systems and protocols to ensure continuity of operations and crew safety during emergencies. Backup power sources, redundant components, and fail-safe mechanisms are in place to maintain life support functionality in the event of power outages, system malfunctions, or other critical failures. === Hydroponic systems === {{ :corp:mining_guild:technology:life_support_3.png?300|}} * **Nutrient Film Technique (NFT)**: Channels or tubes through which a thin film of nutrient solution flows, providing essential nutrients to plant roots while promoting efficient nutrient uptake and oxygenation. * **Drip Irrigation**: Automated irrigation systems that deliver precise amounts of nutrient solution directly to plant roots, ensuring optimal hydration and nutrient absorption without water wastage. * **Aeroponics**: Mist or fog systems that suspend plant roots in the air and deliver nutrient-rich mist, promoting rapid growth and efficient nutrient absorption while minimizing water usage. ==== Power Systems ==== {{members:charaa:ship_power_core.jpg?300 }}The power systems of the Sentinel-class Control Frigate are crucial for providing the necessary electrical energy to support various onboard systems, equipment, and operations throughout the duration of missions in deep space. These systems are designed with redundancy, resilience, and reliability in mind, leveraging advanced technologies and fail-safe mechanisms to ensure continuous power supply and operational readiness in the demanding and unpredictable environment of deep space. By incorporating multiple layers of redundancy and backup systems, the frigate is capable of withstanding power-related challenges and maintaining mission-critical functionality under adverse conditions. === Main Power Systems === * **Fusion Reactors**: The primary source of power for the frigate is fusion reactors, which generate energy through controlled fusion reactions. Fusion reactors harness the immense energy released when atomic nuclei fuse together, producing high-temperature plasma that is converted into electrical energy through electromagnetic induction or other means. * **Power Distribution Grid**: Electrical energy generated by fusion reactors is distributed throughout the ship via a sophisticated power distribution grid. This grid consists of cables, conduits, and distribution panels that route electrical power to various subsystems, compartments, and equipment bays as needed. === Redundant Power Systems === * **Backup Fusion Reactors**: Redundant fusion reactors serve as backup power sources to provide additional resilience and reliability in case of primary reactor failures or emergencies. These backup reactors are activated automatically or manually upon detection of primary system anomalies, ensuring continuous power supply and operational readiness. * **Emergency Batteries**: Emergency backup batteries are installed throughout the ship to provide short-term power during transient power outages, reactor startups, or critical system reconfigurations. These batteries are charged continuously and automatically engage during power disruptions to maintain essential systems and prevent mission-critical failures. === Additional Redundancy Systems === * **Power Management Systems**: Advanced power management systems optimize power distribution, load balancing, and energy efficiency across the ship's electrical grid. These systems monitor power usage, prioritize critical systems, and dynamically adjust power allocation to meet changing operational demands while minimizing energy wastage. * **Redundant Components and Circuits**: Critical power distribution components, such as circuit breakers, transformers, and switching devices, are duplicated or triplicated to ensure redundancy and fault tolerance. Redundant circuits and power pathways are established to bypass damaged or malfunctioning components, preserving power flow and system functionality in the event of localized failures. * **Automated Failover Mechanisms**: Automated failover mechanisms detect and respond to power system anomalies, switching between primary and redundant power sources seamlessly to maintain continuous operation without interruption. These failover mechanisms utilize sensors, control algorithms, and predictive analytics to anticipate and mitigate potential failures before they occur, ensuring maximum uptime and reliability of power systems. ==== Propulsion ==== {{ members:charaa:propulsion_engine.jpg?300}}The propulsion systems of the Sentinel-class Control Frigate are essential for maneuvering, navigation, and traversing vast distances in the depths of space. These systems combine advanced sublight thrusters with warp drive technology to provide efficient, reliable, and versatile means of propulsion for maneuvering within star systems and traversing the vast distances of interstellar space. By leveraging both sublight and FTL propulsion systems, the frigate is capable of undertaking long-range exploration missions, conducting mining operations, and responding to emergencies or threats in the far reaches of the galaxy. === Sublight Propulsion Systems === * **Ion Thrusters**: Ion thrusters are the primary sublight propulsion system used for maneuvering and acceleration during intra-system travel and orbital maneuvers. These thrusters utilize ionized particles as propellant and generate thrust by accelerating ions through electromagnetic fields. Ion thrusters provide efficient and precise control of the frigate's velocity, enabling smooth and precise movements in space. * **Plasma Thrusters**: Plasma thrusters complement ion thrusters for sublight propulsion, offering higher thrust levels and greater acceleration capabilities for rapid course corrections and trajectory adjustments. Plasma thrusters operate by expelling superheated plasma generated by ionization of propellant gases, producing thrust through the expulsion of high-velocity exhaust. * **Reaction Control System (RCS)**: The frigate is equipped with a reaction control system consisting of small thrusters positioned at strategic locations around the hull. RCS thrusters provide attitude control, rotation, and stabilization during docking maneuvers, fine adjustments in trajectory, and orientation changes in space. These thrusters operate in short bursts to precisely control the frigate's orientation and attitude without expending large amounts of propellant. === Faster-Than-Light (FTL) Propulsion Systems === * **Warp Drive**: The frigate is equipped with a warp drive propulsion system capable of achieving faster-than-light travel by warping space-time around the ship. Warp drive technology enables the frigate to bypass the limitations of conventional space travel by contracting space ahead of the ship and expanding space behind it, effectively creating a "warp bubble" that propels the ship at superluminal speeds. * **Alcubierre Drive**: The warp drive mechanism is based on theoretical concepts such as the Alcubierre drive, which involves the manipulation of space-time to facilitate faster-than-light travel. By compressing space in front of the ship and expanding it behind, the frigate effectively "rides" the curvature of space-time, allowing it to traverse vast distances in a relatively short period without violating the laws of physics regarding the speed of light. ===Warp Navigation Systems === Warp navigation systems calculate and plot safe trajectories for FTL jumps, taking into account gravitational fields, celestial bodies, and spatial anomalies that could affect the stability and safety of the warp bubble. These systems ensure accurate and reliable navigation during FTL travel, minimizing the risk of collisions, misjumps, or spatial distortions that could compromise the frigate's safety and integrity. ==== Shield Systems ==== The shield systems of the Sentinel-class Control Frigate are critical defensive components designed to protect the ship from various threats, including enemy weapons fire, micrometeoroids, radiation, and other hazards encountered during space travel and combat. Thus it ensures the safety and survivability of the ship and its crew in the challenging and perilous environment of deep space. === Deflector Shields === The frigate is equipped with deflector shields that create a protective energy barrier around the ship, deflecting or absorbing incoming projectiles, energy weapons, and debris. Deflector shields operate by projecting a coherent energy field that intercepts and disperses hostile threats before they can impact the ship's hull. Deflector shields are adjustable in strength and configuration, allowing the crew to modulate shield levels to match the intensity of incoming attacks or environmental hazards. Shields can be concentrated in specific areas of the ship to provide enhanced protection against targeted threats or evenly distributed to provide comprehensive coverage across the entire hull. === Shield Generators === Shield generators are the primary components responsible for generating and sustaining the deflector shields of the frigate. These generators harness energy from the ship's power systems, such as fusion reactors or auxiliary power sources, to generate the electromagnetic fields that form the shield barrier. Shield generators are strategically positioned throughout the ship to ensure uniform coverage and redundancy in shield deployment. Multiple generator arrays may be installed to provide overlapping shield coverage and compensate for localized shield failures or damage. === Shield Modulation and Frequency Tuning === Shield modulation and frequency tuning capabilities allow the frigate to adjust the properties and characteristics of its deflector shields to counter specific types of threats or weapon systems. By modulating shield frequencies, the frigate can adapt its defenses to penetrate enemy shields, disrupt energy-based attacks, or counteract electronic warfare tactics. Shield frequency tuning also enables the frigate to counteract resonance-based weapons, such as disruptors or harmonic disruptors, by adjusting shield frequencies to negate or minimize their effects. === Energy Management and Recharge Systems === Energy management and recharge systems regulate the power distribution and allocation for shield operations, ensuring optimal performance and efficiency of shield systems during combat engagements. These systems prioritize shield power over other non-essential systems, dynamically adjusting energy flow to reinforce shield barriers and maintain defensive integrity. Recharge systems rapidly replenish depleted shield energy reserves during lulls in combat or downtime, allowing the frigate to recover and restore shield strength before resuming defensive operations or engaging in further combat encounters. === Emergency Shield Protocols === Emergency shield protocols are activated automatically or manually in response to imminent threats or critical system failures. These protocols maximize shield strength and resilience by diverting additional power to shield generators, reinforcing shield barriers, and implementing evasive maneuvers to minimize exposure to hostile fire. Emergency shield protocols may also trigger defensive maneuvers, such as evasive maneuvers or rapid course changes, to avoid incoming threats or projectiles while shield systems are reinforced or repaired. ==== Weapons Systems ==== The weapons systems of the Sentinel-class Control Frigate are designed for defending the ship against various threats, including hostile vessels, pirates, and other adversaries encountered during space missions. These systems encompass a diverse array of offensive and defensive armaments, including main weapons, secondary weapons, tertiary weapons, fourth weapons, and point defense weapons. By incorporating a mix of energy-based, kinetic, and missile-based weapons, the frigate is capable of adapting to various combat scenarios and effectively defending itself and its crew against hostile adversaries. === Main Weapons === * **Particle Beams**:(Tier 11) Particle beams are primary energy-based weapons mounted on turrets or fixed emplacements across the frigate's hull. These beams project streams of high-energy particles at near-light speeds, capable of penetrating enemy shields and armor with devastating effect. Particle beams provide long-range firepower and precision targeting, making them effective against enemy capital ships and larger targets. Numbered in **1** * **Railguns**:(Tier 10) Railguns are electromagnetic projectile weapons that launch high-velocity kinetic projectiles at extreme velocities, delivering significant kinetic energy upon impact. Railguns are versatile weapons capable of engaging both capital ships and smaller vessels, offering high damage output and long-range engagement capabilities. **50 in number** === Secondary Weapons === * **Missile Launchers**:(Tier 10) Missile launchers are secondary weapons systems that launch guided missiles or torpedoes at enemy targets. These missiles can be equipped with various warhead payloads, including high-explosive, anti-ship, anti-fighter, or electronic warfare payloads, allowing for flexible engagement options depending on the tactical situation. numbered in **100** * **Pulse Lasers**:(Tier 10) Pulse lasers are rapid-fire energy weapons that emit pulses of coherent light energy at enemy targets. Pulse lasers are effective against both shielded and unshielded targets, delivering sustained damage over time and providing close-range defense against enemy fighters, drones, and incoming missiles. **60** in number === Tertiary Weapons === * **Plasma Cannons**:(Tier 11) Plasma cannons are heavy energy weapons that discharge concentrated plasma bolts at enemy targets, causing widespread thermal damage upon impact. Plasma cannons are effective against shielded targets and armored vessels, providing high burst damage and area-of-effect capabilities. **30** in number * **Ion Cannons**:(Tier 11) Ion cannons emit streams of ionized particles that disrupt enemy electronics, systems, and propulsion, temporarily disabling or crippling enemy ships without causing physical damage. Ion cannons are ideal for disabling subsystems, neutralizing enemy defenses, and facilitating boarding actions or capture operations. **20** in number === Quaternary Weapons === * **Gauss Cannons**:(Tier 11) Gauss cannons are advanced electromagnetic weapons that accelerate ferromagnetic projectiles to hypervelocity speeds, delivering kinetic impacts with tremendous force. Gauss cannons excel at penetrating enemy armor and shields, inflicting significant damage to critical systems and subsystems. **20** in number * **Disruptor Beams**:(Tier 11) Disruptor beams emit focused energy pulses that destabilize enemy shields and disrupt their energy systems, causing shield fluctuations, power fluctuations, and system malfunctions. Disruptor beams are effective at weakening enemy defenses and exposing vulnerabilities for follow-up attacks. **10** in number === Point Defense Weapons === CIWS (Close-In Weapon Systems):(Tier 9) CIWS are automated point defense systems equipped with rapid-fire kinetic cannons or energy-based weapons designed to intercept and destroy incoming missiles, torpedoes, and enemy fighters at close range. CIWS provide last-ditch defense against fast-moving threats, ensuring the frigate's protection against saturation attacks and swarm tactics. **1000** in number ==== Vehicle Complement ==== The Vehicle Complement of the Sentinel-class Control Frigate consists of a diverse array of vehicles and auxiliary craft essential for supporting the frigate's operations, exploration missions, and tactical deployments in space and planetary environments. From transportation and exploration to mining and combat support, these vehicles and auxiliary craft contribute to the frigate's effectiveness and success in fulfilling its duties across the vast expanse of space. === Shuttles === {{ corp:mining_guild:starships:transportation:1au.png?300}} **Shuttles and Utility Craft**: The Vehicle Complement includes a variety of shuttles and utility craft for personnel transportation, [[corp:mining_guild:starships:industrial_shuttle|cargo logistics]], and maintenance operations. These craft are used for intra-system travel, orbital maneuvers, and docking procedures, providing essential support for crew mobility and mission logistics. * **[[corp:mining_guild:starships:personnel_transport|Stork-class Transport Ships]]**: The frigate is equipped with Stork-class transport ships capable of ferrying personnel, supplies, and equipment between the frigate and planetary surfaces or remote outposts. Stork transports feature versatile design configurations, including cargo transport, troop transport, and medical evacuation capabilities, enabling them to support a wide range of mission requirements. === Drones === * **Mining Drones and Robotics**: The Vehicle Complement includes a fleet of mining drones and [[corp:mining_guild:drones:miner|robotic bodies]] used for [[corp:mining_guild:drones:miner|robotic bodies]] used for [[gear:other:rock_sucker|sucking]], **Escavations**, and resource extraction operations operations. These drones are remotely controlled by operators aboard the frigate or autonomously guided by AI systems, allowing for efficient and precise mining operations on planetary surfaces, asteroid fields, or other celestial bodies. * **[[corp:bwe:equipment:repair_drones|Repair]] and Maintenance Drones**: The Vehicle Complement includes repair and maintenance drones equipped with tools, manipulators, and diagnostic equipment for conducting routine maintenance, repairs, and servicing of the frigate's systems and subsystems. These drones assist engineering crews in troubleshooting and resolving technical issues, ensuring operational readiness and system reliability. ==== Fighter Squads ==== Fighter Squadrons: The frigate deploys fighter squadrons consisting of 800 agile [[shards:ndc:starships:aifighter|Starfighters]] equipped with advanced weapons and defensive systems for space combat and defensive operations. These fighters are tasked with escort missions, interception patrols, and tactical engagements, enhancing the frigate's defensive capabilities and combat readiness in hostile environments. ==== Probes ==== {{ :corp:mining_guild:technology:mining_probe_2-removebg-preview.png?200|}} * **Exploration Probes**: The frigate is equipped with a complement of exploration probes and unmanned spacecraft designed for scientific research, reconnaissance, and surveying missions. These probes are equipped with sensors, cameras, and scientific instruments to gather data on planetary geology, atmospheric conditions, and astronomical phenomena, contributing to the frigate's exploration and discovery objectives. * **[[corp:mining_guild:technology:mining_probe]]** The main purpose of the Probes is to mark locations that were detected to have rich deposits of multiple materials depending on what the Searchers are looking for. ===== OOC Notes ===== [[user:charaa]] created this article on 2024/04/21 22:44. * Art By [[user:Charaa]] using Copilot ===== OOC ===== * **Player** [[user:charaa]] created this on 2024/05/05 20:28. ==== Usage ==== This article's content adheres to Project Multiverse's [[rules:setting_contribution|submission and usage rules.]]