Wanderlust statistics Mark I
From StarFleet Bureau of Information
350813-351204 BASIC STATISTICS Class Name : WANDERLUST Classification : Explorer Type : CL (Light Cruiser) Model Number : I (NCC-93000) PHYSICAL SPECIFICATIONS Length : 467 m Beam : 166.9 m Draft : 72 m Displacement : 2,054,386 mt Decks : 14 (~5 m high each) COMPLEMENT Total : 357 Officers : 26 Crew : 231 Passengers : 20 (30 maximum) Marines : 80 (normal comlement- 2 platoons + command team) PROPULSION SYSTEMS Warp Propulsion System Drive Type : ILN-701 Mk I Number : 2 Main Reactor : FRAM-1201 Impulse System Drive Type : GDP-2 (Gravitic Dynamic Planing Drive, model 2) Number : 1 (2 nodes) Secondary Reactor: FRIF-700 Network Thruster Control : Quickstep Dimensional Warp Drive Drive Type : Dim-V-W1 Velocity Warp speeds (Sensor Mode) Standard Cruise Speed : 7.0 Maximum Cruise Speed : 9.2 Sustainable for 12 hours : 9.7 (Flight Mode) Standard Cruise Speed : 8.0 Maximum Cruise Speed : 9.9 Sustainable for 12 hours : 9.95 Maximum Emergency Speed : 9.98 D-Warp Velocity Standard Cruise Speed : Theta band (0.5c) : 9.99478 Maximum Cruise Speed : Theta band(0.75c) : 9.99736 Sustainable for 18 hours : Iota band (0.75c) : 9.99990 Maximum Emergency Speed : Kappa band (0.75c): 9.99997 ARMAMENT Phaser, Type XI Number : 9 banks Range : 345,000 km Arcs : Saucer dorsal arrays p/s Saucer ventral arrays p/s Secondary hull ventral Nacelle pylons arrays external p/s Nacelle pylons arrays internal p/s Phaser, Type Xa (Pulse Phaser) Number : 2 Range : 300,000 km Arcs : 2 turrets, fw dorsal/ventral Flux Torpedo, Mk II Seeking/Direct Number : 3 tubes Range : 3,500,000 km Arcs : 2 forward, 1 aft Point Defense Lasers, type III Number : 12 (6 turrets of 2 lasers each) Range : 300,000 km Arcs : saucer ventral turrets (p/s) : saucer dorsal turrets (p/s) : aft hull aft dorsal turrets (p/s) Point Defense Drones, type III Number : 2 launchers Arcs : saucer launcher (p/s) Complement : 40 drones (20 per side) Deflector System : FD-10f Cocoon multiphasic deflector system : SRPS-1 radiation phase shielding system OTHER SYSTEMS VATES sensor suite Transporters Standard, 6-person : 4 Emergency, 22-person : 3 Cargo : 3 Shuttle Bays : 2, Main (Saucer), Aux (aft) Embarked Craft (Standard, specific ships may vary) Worker bee : 20 Shuttlepod : 10 Personnel Shuttle, Small: 4 Personnel Shuttle, Large: 2 D-Warp Shuttle : 2 Cargo Shuttle : 3 Runabout : 1 SESR Module (type IVd) : 2 Notes: The WANDERLUST-class is the first outcome of a new philosophy in exploratory vessels. Applying the lastest technologies and automatisms, the result is a ship more capable than much bigger cruisers with a lighter frame and only a fraction of the crew. With a touch of inspiration from the classical Constitution-class vessels, and three touches from the venerable Excelsior-class spaceframe, the WANDERLUST is, however, a completely different ship inside-out, with the latest improvements in all systems shipwide, starting with the internal network that has been updated to the latest biogel cells and the fastest optoelectroics. Taking advantage of the increased computational power and the extremely fast optical network, the main computer core has been designed around the concept of a cluster of many smaller cores distributed around the ship: this provides a more robust system, resilience to partial failure and faster local response. The AUGUR sensor suite has been fully integrated into this new architecture and enhanced with extra sensor emitters, giving birth to the VATES sensor suite. It's faster and gives better resolution both at Warp and at sublight speeds, thanks to the coordination with the new ILN-700s nacelle series and its own computing cores, resulting in much faster speeds while in full sensor mode. The VATES sensor is complemented with AUGUR SESR modules that take advantage of the computer network to provide even better results, particularly on long range sensors. The ship also has specialized planetary swipe sensors and dedicated proximity sensors able to detect very small detail in complex scenarios like asteroid fields. The new ILN-70x nacelle series has improved Warp coils using a system of multiple concentrical layers that provides an exceptional thermal reaction and allows for softer acceleration curves and finer control in the local manifold deformation. Dedicated computer nodes, gathering information in real time, are able to calculate the Warp bubble geometry tensor at triple the frequency and almost ten times as precisely as older models. This allows for faster speeds with less energy expenditure, allowing for faster, longer Warp travels. While engaged in Warp, if the full resolution power of the VATES sensors is activated, the computer calculates small cells in the Warp field bubble that 'spike out' as the sensor emitters and receivers demand: This way there's almost no impact on sensory performance while travelling and Warp speeds are less affected than on previous iterations, as the Warp bubble maintains a closer to optimal geometry. In addition to the new Warp system, the WANDERLUST-class CL is equipped with the latest Gen V D-Warp technology, which coupled with the improved shields and SRPS-1 radiation phase shielding system, allows for considerably faster and more robust D-Warp travel in all Hyperspace bands. This new D-Warp iteration offers improved control over local gravimetrics, providing extremely agile and responsive sublight flight. Coupled with the very light and sturdy spaceframe of the ship, this provides the best gravitic plane drive in the whole catalog of StarFleet. The WANDERLUST is well armed and ready to face any contingencies, but the main emphasis is on exploration: using the most advanced automatisms for maintenance and govern, directly through the computer interface or via holographic AIs, the ship has been able to reduce the crew complement to a point where living and working space is luxurious. Several holodecks and holosuites provide ample entertainment opportunities and the scientific laboratories are the best available, comparable to those installed on a YASURAGI-class CL. Most areas of the ship have holoemitters coverage so as to allow the different holographic assistant systems to interact with the crew and the ship as needed. In addition to all this, the ship has a luxurious projection dome for stellar cartography and other scientific uses. The ship posesses ample Hangar space for small crafts to assist in exploration and a Runabout for longer away missions, with two VTOL entries for smaller craft on either sides of the neck. The auxiliary Hangar bay can hold the Runabout, but just barely, and usually has some small craft like bees and small shuttles. It's vertical lift-off and also houses a small repairs bay to enhance the independence capacity of the ship. The secondary hull has an Engineering hangar for rapid loading of suplies and Warp core operations in Docks and two extra cargo hangars for easier supply operations. The ship has 14 decks of roughly 5 meters to allow for all the automations, energy conduits, computer cores, data transfer neural links, extra IDF generators and holoemitters to work. The bridge is on deck 1 and there's a cantine on deck 4 in the saucer starboard section called 'Four Seasons' that offers excellent views with its ample vieports. Decks 13 and 14 are rather irregular in shape and size as they hold different cargo bays and systems. Overall, a ship born to explore and boldly go where no one else has gone before. Ship names are based on the concept of going out and exploring and famous historical scientific explorers in Federation planets, registries in the NCC-930xx series: USS WANDERLUST USS WANDERUNG USS WALKABOUT USS GALLIVANT USS TREK USS NOMAD USS ERKUNDUNG USS SHACKELTON USS AMUNDSEN USS BARTTLET USS DARWIN USS ERIKSSON USS HANNO USS HEYERDAHL USS IBN BATTUTA USS IBN MAJID USS JEANNE BARET USS MARCO POLO USS RICHARD FRANCIS BURTON USS VASCO DA GAMA USS SCOTT USS ZHENG HE USS SPOCK USS XUANZANG Ship design by David S. de Lis for use in ASR (2023). Edited and reviewed by Scott Lusby and Jeffrey Jenkins.