Differences

This shows you the differences between two versions of the page.

--- corp:mining_guild:starships:carrier [2024/08/17 18:06] – [Vehicle Complement] charaa
+++ corp:mining_guild:starships:carrier [2024/10/21 20:23] (current) – [History] charaa
@@ Line 18: / Line 18: @@
 compounding delay were the subsequent actions of [[characters:mg:astrid_kurosaki|Astrid Kurosaki]], the CEO of the Mining Guild. Kurosaki, a staunch advocate for miner safety, raised significant concerns regarding the operational hazards faced by miners in asteroid belts and uncharted sectors. Her advocacy led to a strategic decision to prioritize the enhancement of safety measures within the guild's operations. This initiative resulted in the accelerated development of the [[corp:mining_guild:starships:the_posessor|Sentinel-class Control Frigate]], a vessel designed specifically to oversee and protect mining operations in perilous environments. The Sentinel-class Control Frigate, equipped with advanced surveillance and defensive systems, and the ability to control robotic bodies, required substantial resources and technological input, further diverting attention and materials from the Polaris-class Ultra Carrier project.
-Thus, the convergence of these two significant events—the Motoyoshi clan's invitation and Astrid Kurosaki's safety campaign—led to a cascading effect of delays. The development of the Polaris-class Ultra Carrier, initially envisioned as a cornerstone of the Mining Guild’s Fleet's might, was consequently postponed. This delay underscored the intricate balance of power, safety, and strategic resource allocation in the expansive galactic landscape.
+Once the pressing concerns had been addressed, the Mining Guild redirected its focus back to the Polaris-class Ultra Carrier project. The safety enhancements advocated by Astrid Kurosaki were successfully integrated into the Mining Guild's operations. With these issues resolved, resources and personnel were reallocated to resume the development of the Ultra Carrier in 6th year.
-Once the pressing concerns had been addressed, the Mining Guild redirected its focus back to the Polaris-class Ultra Carrier project. The safety enhancements advocated by Astrid Kurosaki were successfully integrated into the Mining Guild's operations, and the strategic diplomatic engagements initiated by the Motoyoshi clan had reached a satisfactory conclusion. With these issues resolved, resources and personnel were reallocated to resume the development of the Ultra Carrier in 6th year.
 The first vessel in the Polaris-class, codenamed MG-01 Pioneer, represented a culmination of cutting-edge technology and innovative design. Launched in, the 6th year,  the Pioneer made a significant impact upon its debut. The ship's advanced features and operational capabilities demonstrated the Mining Guild's commitment to excellence and technological advancement. The successful launch and subsequent performance of the Pioneer garnered widespread acclaim, marking a pivotal moment in the guild's naval history.
@@ Line 127: / Line 125: @@
 Below are some Compartments of the Polaris-class Ultra Carrier
 === The Bridge ===
-The Bridge of the Polaris-class Ultra Carrier is the nerve center of the ship, where critical decisions are made, and operations are coordinated. 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. 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.
+{{  :corp:mining_guild:location:polaris_bridge.png?400|}}The Bridge of the Polaris-class Ultra Carrier is the nerve center of the ship, where critical decisions are made, and operations are coordinated. 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. 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.
 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. 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.
@@ Line 154: / Line 152: @@
 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 ====
-The ** Mining Equipment Storage** 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. The layout is designed to maximize accessibility and organization, with equipment categorized and labeled for quick retrieval and deployment during mining expeditions.
+{{:corp:mining_guild:location:mgmagpie1.png?400  |}}The ** Mining Equipment Storage** 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. The layout is designed to maximize accessibility and organization, with equipment categorized and labeled for quick retrieval and deployment during mining expeditions.
 Another portion of the storage space is allocated for storing supplies necessary for sustaining mining operations and supporting the crew onboard the Carrier. This includes consumables such as food, water, medical supplies, spare parts, and maintenance materials. The supplies stockpile is regularly replenished during refueling, and resupply times.
@@ Line 174: / Line 172: @@
 ==== Propulsion Systems ====
-Located at the rear of the Engineering Section are the Carrier'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.
+{{  user:charaa:propulsion_engine.jpg?300}}Located at the rear of the Engineering Section are the Carrier'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 Carrier'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.
@@ Line 188: / Line 186: @@
   * **Environmental Controls** which are systems for monitoring and controlling environmental factors such as humidity, radiation levels, and electromagnetic interference to safeguard crew health and equipment integrity.
 ==== Hydroponics Bay ====
-The Hydroponics Bay aboard the Polaris-class Ultra Carrier 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. 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. 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.
+{{  :corp:mining_guild:location:mghydroponics_bay.png?400|}}The Hydroponics Bay aboard the Polaris-class Ultra Carrier 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. 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. 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.
 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. 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.
@@ Line 199: / Line 197: @@
 === Top Level: Personnel Transport and Shuttle Landings ===
-The topmost level of the hangar bay is dedicated to landing pads for [[corp:mining_guild:starships:personnel_transport|Stork-class Personnel Transports]] and similar shuttles. These pads are equipped with advanced landing guidance systems and automated docking protocols to ensure smooth and efficient landings, even in the midst of turbulent conditions. The Stork-class transports are essential for ferrying crew members, [[corp:mining_guild:company_operations#miners|miners]], and [[corp:mining_guild:power_armor:ant|Power Armor]] between the carrier and other ships or planetary surfaces. The ample space and robust support infrastructure on this level facilitate rapid turnaround times and high-frequency shuttle operations.
+The topmost level of the hangar bay is dedicated to landing pads for [[corp:mining_guild:starships:personnel_transport|Stork-class Personnel Transports]] and similar shuttles. These pads are equipped with advanced landing guidance systems and automated docking protocols to ensure smooth and efficient landings, even in the midst of turbulent conditions. The Stork-class transports are essential for ferrying crew members, [[corp:mining_guild:company_operations#miners|miners]], and [[corp:mining_guild:power_armors:ant|Power Armor]] between the carrier and other ships or planetary surfaces. The ample space and robust support infrastructure on this level facilitate rapid turnaround times and high-frequency shuttle operations.
 === Middle Level: Docking Clamps and Magnetic Locks ===
@@ Line 239: / Line 237: @@
 ==== Computers and Electronics ====
-{{members:charaa:ai_processor.png?300  }}The computers and electronics aboard the Polaris-class Ultra Carrier 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:
+{{user:charaa:ai_processor.png?300  }}The computers and electronics aboard the Polaris-class Ultra Carrier 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 ===
-{{  members:charaa:red_ai.jpg?300}}[[corp:mining_guild:electronic:systems:ai#ai_designationaurum|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. This is done by using a sophisticated computer network interconnects various systems, subsystems, and components throughout the Carrier. This network facilitates data exchange, information sharing, and system integration, enabling seamless operation and coordination of onboard systems.
+{{  user:charaa:red_ai.jpg?300}}[[corp:mining_guild:electronic:systems:ai#ai_designationaurum|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. This is done by using a sophisticated computer network interconnects various systems, subsystems, and components throughout the Carrier. This network facilitates data exchange, information sharing, and system integration, enabling seamless operation and coordination of onboard systems.
 Automation and control systems manage and regulate critical functions and processes aboard the Carrier. This includes propulsion control, life support management, power distribution, environmental control, and safety monitoring systems to ensure operational efficiency and crew safety. Advanced navigation systems provide precise positioning, course plotting, and trajectory calculations for the ship. This includes inertial navigation systems (INS), star trackers, and celestial navigation aids to ensure accurate and reliable navigation in deep space.
@@ Line 308: / Line 306: @@
 ==== Power Systems ====
-{{members:charaa:ship_power_core.jpg?300  }}The power systems of the Carrier 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.
+{{user:charaa:ship_power_core.jpg?300  }}The power systems of the Carrier 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 Carrier is capable of withstanding power-related challenges and maintaining mission-critical functionality under adverse conditions.
@@ Line 322: / Line 320: @@
 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 [[corp:mining_guild:technology:propulsion |propulsion systems]] of the Polaris-class Ultra Carrier 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 carrier is capable of undertaking long-range exploration missions, conducting mining operations, and responding to emergencies or threats in the far reaches of the galaxy.
+{{  user:charaa:propulsion_engine.jpg?300}}The [[corp:mining_guild:technology:propulsion |propulsion systems]] of the Polaris-class Ultra Carrier 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 carrier is capable of undertaking long-range exploration missions, conducting mining operations, and responding to emergencies or threats in the far reaches of the galaxy.