Olympus

A Star Trek Play-by-Forum RPG

STARSHIP ENGINEERING ACCESS

TECHNICAL SPECIFICATIONS

U.S.S. OLYMPUS | NCC-82989 | CENTURY-CLASS

CLASS OVERVIEW

Role: Explorer

Dimensions: 715 meters (L) x 282 meters (W) x 104 meters (H)

Decks: 26

Expected Duration: 120 years

Time Between Resupply: 7 years

Expected Refit Cycle: 20 years

CREW COMPLEMENT

Total Complement: 600

  • 90 Officers
  • 470 Enlisted
  • 40 Civilians

Emergency Capacity: 11,000

PROPULSION SYSTEMS

Thrusters: RCS Thrusters

Sublight Speed: 0.25c

Warp Speed

  • Cruising Speed: Warp 8.4
  • Maximum Warp: Warp 9.5
  • Emergency Warp: Warp 9.99 (for 72 hours)

TACTICAL SYSTEMS

Phasers: 9x Type-XII Phaser Arrays

Launchers: 8

  • 4 Forward
  • 4 Aft

Torpedo Supply

  • 300 Quantum Torpedoes

Shields: Regenerative

INTERNAL SYSTEMS

Computers: Isolinear Computer Systems with artificial interface

Holographic Systems: Shipwide

Transporters

  • 4 six-man personnel transporters
  • 2 Cargo transporters

Transporter Range: 45,000 kilometers

Sensor Range: 25 light years

Communications Range: 25 light years

AUXILIARY CRAFT

Shuttlebays: 3

Support Craft: 23

DESIGN OVERVIEW

Representing a high degree of refinement of a number of systems first introduced in the 2370s, the Century-class is a fast, efficient successor to the Galaxy-class explorer that she has supplanted. Compared to her cousins the Sovereign and the Odyssey, the Century is the smallest of the three modern explorer classes being built by Starfleet, in terms of both size and crew complement, but is the one most closely-aligned with Starfleet’s core exploration directive. They are a rare sight within the Federation, as they are almost always sent on long-duration exploration missions on the fringes of known space.

SCIENCE & EXPLORATION

Other than a fully-staffed Olympic-class research vessel, the Century is Starfleet’s most advanced scientific platform currently in service. Like the Galaxy before her, the Century has large amounts of mission-configurable space that can be adapted for whatever scientific mission she has been tasked with. In addition, there are specialized scientific labs for nearly every discipline and the capacity to embark up to 200 visiting scientists to supplement the ship’s own crew. With a smaller crew than other ships of her size, more space is given over to labs and scientific equipment than is possible on other designs.

Due to her high sustainable top speed, the Century is adept at missions that take her well beyond Federation space and is rated for up to seven years of independent operations when fully-supplied, while her cousins are only rated for five-year missions. This improvement in endurance is possible because of her much smaller crew and much lower maintenance requirements, compared to the Sovereign and Odyssey.

DIPLOMACY

Like the other explorers, the Century is a capable diplomatic platform. Her facilities have been optimized for first contact scenarios, as she is often sent far from Federation space. While the Odyssey is the superior overall diplomatic platform, being paid a visit by a Century-class ship would be considered a great honor by most races. There is a meeting hall, with several sets of diplomatic offices for use by Federation or alien diplomats, along with guest quarters that can be configured to nearly any atmospheric needs of visitors.

ENGINEERING

Nearly every system in use aboard the Century is a proven technology that has been refined first on another class of ship in service, with the goal of creating a starship that could comfortably explore outside of Federation space with minimal maintenance and support needs. These systems include the advanced Type-9 warp drive and bioneural computers pioneered aboard the Intrepid-class, tactical systems taken from the Sovereign-class, and shipwide holographic projectors and advanced automation protocols from the Prometheus-class. The result of combining these technologies into a single spaceframe was a highly-advanced vessel that suffered hardly any teething problems during construction or early space trials, as the kinks had all been worked out on earlier vessels.

Compared to other ships of her size, the Century requires a comparatively small engineering staff, as she was designed specifically to minimize maintenance and maximize automation. The Type-9 warp drive has been tuned to take advantage of the size increase from the Intrepid to allow for a larger reaction chamber, and thus a greater overall power output, which gives her an impressive top speed of Warp 9.99, which she can sustain for 72 hours.

The ship has three shuttle bays, two in the saucer section and one on the stern, with an impressive complement of small craft designed to supplement the ship’s exploration capabilities.

TACTICAL

Tactical systems on the Century are inspired heavily from the earlier Sovereign-class, but with an emphasis on reliability and miniaturization. All-around defensive coverage is provided by the proven Type-XII phaser arrays covering every arc, and four torpedo launchers on both the forward and aft arcs. The shields have been modeled after the Sovereign as well, and represent the latest version of the regenerative shield system. This makes the Century a major threat to nearly any other spacecraft, though her phasers have been tuned to a lower overall output than the Sovereign and the Odyssey has overall higher shield power.

The Century is less powerful than the Sovereign but still managed to serve as a deterrent in her own right; a visit from a ship of this class is a signal that Starfleet is willing to commit an advanced tactical asset to put out a brushfire. With that being said, Century-class ships are not routinely assigned to strictly tactical missions, as their strengths are in exploration not in combat.

SHIPBOARD LIFE

Century-class ships have crews of just 500, compared to 750 aboard the Sovereign and 2,500 aboard the Odyssey, so serving aboard one is a much different experience than on the other two modern explorers. The long waiting list to serve aboard a Century-class ship is because they are being assigned to some of the most exciting exploratory missions in Starfleet, and the officers that serve aboard her tend to be highly-collegial and interested in science.

Accommodation standards are approximately equal to the the larger Galaxy-class. Eight holodecks are supplemented by an arboretum, numerous lounges along the leading edge of the saucer, a gymnasium, and a theater provide the crew with recreational opportunities.

Medical facilities aboard the Century are approximately equal to the Sovereign, with a large sickbay complex in the primary hull and a secondary facility near Main Engineering. Like other ships of her size, she is capable of using her holographic projectors and replicators to reconfigure guest quarters and cargo bays into medical facilities for emergencies, but the Odyssey-class is the superior humanitarian platform.

CLASS HISTORY

Construction on the USS Century began construction in mid-2377 with the keel laid down at Utopia Planitia Fleet Yards. Construction of the vessel was slow and steady allowing room for trial and error to install and properly configure all the automated systems associated with her design. Since no Starfleet vessel beforehand was geared towards such high automation, and many of the ship’s vital systems were tied into this method, precision was necessary to ensure the ship functioned without a critical error after launch.

What would have been a standard production timeline for a prototype of the Century’s nature was significantly extended, due to needing to test and re-test these systems before being brought fully online. In late 2378, the ship’s computer came online, and in a matter of months had become self-aware. With the assistance of the automation protocols in place, the rest of the construction and outfitting continued unabated. The high level of automation cut an estimated six months off the outfitting and construction process.

In mid-2379, the class’ namesake and prototype had finished construction and outfitting. The plaque was put in the place of honor, and a crew was selected for the shakedown cruise. With such lofty goals as had been put in place for this new class, the criterion for the cruise were extensive. In addition, the Admiralty wanted to ensure beyond a shadow of a doubt that the automation systems installed wouldn’t cause a cascade system-wide failure.

The Century performed admirably, and exceeded all of the Admiralty’s expectations, though the full shakedown of the prototype took the better part of two years. In 2382, the USS Century was officially commissioned, and another Century class vessel, the USS Constitution, was put into production. Eventually, by 2385, Starfleet Command was satisfied with the overall performance, automation and computer systems of their two Century-class vessels and ordered a batch of six starships to begin production in 2386 with others to follow.

Full-scale production of the Century-class called an end to production of the Galaxy-class design, with the last one leaving McKinley Station in 2385. With the Sovereign-class and Odyssey-class ships also in production as more specialized vessels, production was set at a ratio of three Century-class ships to two Sovereign-class ships to one Odyssey-class ship in the 2390s, setting the Century up to be the leading explorer for the 25th Century.

DECK LISTING

Deck 1: Bridge, Captain’s Ready Room, XO’s Office, Diplomatic Suite, Transporter Room 1

Deck 2: CO’s Quarters, XO’s Quarters, Enlisted Affairs Office, Emergency Batteries, Weapons Locker, Bridge Officer Lounge

Deck 3: Main Lounge, Senior Officer Quarters, Aft Viewing Lounge, Communications Array, Officers’ Quarters, Gymnasium

Deck 4: Officer Quarters, Crew Quarters, VIP Quarters, Transporter Room 2, Emergency Batteries, Chief Operations Officer’s Office

Deck 5: Security Offices, Brig, Armory 1, Security Training Facilities, CIO’s Office, Aft Tactical Sensors, Crew Quarters, Holodecks 1 & 2, Cargo Bay 1

Deck 6: Main Computer Core (Level 1), Main Computer Core Control, Science Labs, Upper Arboretum, Diplomatic Facilities, Civilian Quarters, Crew Quarters, Holodecks 3 & 4, Theater

Deck 7: Main Computer Core (Level 2), Main Shuttlebay (Upper), Flight Control Room 1, Astrometrics/Stellar Cartography, Main Science Lab, Lower Arboretum, Chief Science Officer’s Office, Science Labs, Counselor’s Office, Hydroponics Bay, Ship’s Library, Civilian Quarters, School, Officer’s Mess, Main Sickbay and Supports, CMO’s Office

Deck 8: Main Computer Core (Level 3), Main Shuttlebay (Lower),Impulse Assembly, Weapons Locker, Engineering Lab, Shuttlebay Elevators, Upper Shuttle Maintenance & Storage, Forward Tactical Sensors, Docking Clamps

Deck 9: Main Computer Core (Level 4), Impulse Engines, Warp Core Subsystems, Lower Shuttle Maintenance & Storage, Dorsal Docking Port, Emergency Transporters, Crew Quarters, Astrometrics and Stellar Cartography, Advanced Sensor Array

Deck 10: Impulse Assembly, Deuterium Injectors, Shuttle Repair & Machine Shop, Engineering Support Area, Industrial Replicators, Armoury 2, Crew Quarters, Holodecks 5 & 6, Primary Waste Recyclamation, Primary Environmental Control, Cargo Bays 2-4

Deck 11: Auxiliary Deflector Controls, Shuttle Elevator Assembly, Airlock, Crew Quarters, Transporter Rooms 3 & 4, Airlocks, RCS Thrusters, Primary Stores, Science Labs

Deck 12: Auxiliary Deflector Array, Primary SIF/IDF/Shield Generators, Systems Support Compartment, Maintenance Bay 1

Deck 13: Torpedo Turrets Access, Torpedo Storage, Main Sensor Array, Deuterium Tanks, Science Labs, Crew Mess Hall (Aft), Maintenance Bay 2

Deck 14: Deuterium Tanks, Shuttlebay 2, Flight Control Room 2, Turbolift Maintenance

Deck 15: Secondary Computer Core (Level 1), Shuttlebay 2, Shuttle Storage, Deflector Assembly, Weapons Locker, Transporter Room 5, Cargo Bays 5 & 6

Deck 16: Secondary Computer Core (Level 2), Reserve Antimatter Storage, Main Navigational Deflector, Deflector Control, Weapons Locker, Warp Nacelle Access, Emergency Transporters, Auxiliary Sickbay

Deck 17: Main Engineering, Chief Engineer’s Office, Deflector Assembly, Secondary Plasma Vent, Emergency Transporters, Cargo Bays 9 & 10

Deck 18: Deflector Assembly, Auxiliary (Battle) Bridge, Secondary Computer Core (Level 3), Aft Sensor Array

Deck 19: Auxiliary SIF/IDF/Shield Generators, Maintenance Bays, Torpedo Storage

Deck 20: Multi-purpose Chamber (Upper), Crew Quarters, Lateral Sensors, Secondary Communications Array, Tertiary Computer Core (Level 1)

Deck 21: Emergency Batteries, Complementary Deflector Assembly, Multi-purpose Chamber (Lower), Tertiary Computer Core (Level 2)

Deck 22: Forward Torpedo Launchers (2), Torpedo Magazine, Probe Storage, Primary Communications Array, Tractor Beam Assembly, Turbolift Maintenance

Deck 23: Antimatter Storage Pods, Forward Tractor Beam Emitter, Secondary SIF/IDF/Shield Generators, Cargo Bay 10 (Upper), Secondary Stores

Deck 24: Antimatter Storage Pods, Antimatter Generator, Torpedo Magazine, Maintenance Bay 3, Cargo Bay 10 (Lower), Secondary Waste Reclamation, Secondary Environmental Control

Deck 25: Tractor Beam Assembly, Antimatter Generator, Antimatter Injectors, Secondary Sensor Array, Sensor Analysis Suite

Deck 26: Tractor Beam Assembly, Aft Tractor Beam Emitter, Aft Torpedo Launchers (2), Torpedo Magazine, Warp Core Jettison Hatch

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