Difference between revisions of "BuoyRepair"

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===Buoy Transport vehicles===
 
===Buoy Transport vehicles===
 
[[Image:BuoyRepair00012.png|thumb|right|GRS Buoy Tug-Ship Armadillo]]
 
[[Image:BuoyRepair00012.png|thumb|right|GRS Buoy Tug-Ship Armadillo]]
Buoys are approximately the same size as a medium ship like a Cobra. This means they won’t fit in the cargo bay of most normal ships. Walch and Svengali realised a specialised spaceship carrier would be required to transport them. A craft large enough to carry the bouys in a hold was rejected as too expensive, with the authors opting instead for the lower-cost solution of towing the buoys. Cmdr. Svengali designed the [[Armadillo]] for this role: a powerful tugship capable of delivering the bouys to their positions at a reasonable speed.
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Buoys are approximately the same size as a medium ship like a Cobra. This means they won’t fit in the cargo bay of most normal ships. Walch and Svengali realised a specialised spaceship carrier would be required to transport them. A craft large enough to carry the bouys in a hold was rejected as too expensive, with the authors opting instead for the lower-cost solution of towing the buoys. Cmdr. Svengali designed the [[Armadillo]] for this role: a powerful tugship capable of delivering the buoys to their positions at a reasonable speed.
  
 
===Distribution System===
 
===Distribution System===

Revision as of 02:53, 11 January 2010

Founded in 2084004 GCT / 3136 MGMT

Introduction

Trading goods between worlds is an extremely dangerous and hard job. Many trading companies lose ships through accidents, pirate ambushes and thargoid attacks. In 2084003 GCT (Galactic Coordinated Time) / 3135 MGMT (Modern Galactic Mean Time) a number of traders’ guilds decided to counteract to the increasing number of accidents by establishing the space buoys as a marker for safe space lanes.

Unfortunately individual systems are slow to replace destroyed navigation buoys left under their own jurisdiction. This can be very frustrating for pilots. For example a commander at the main station who has to meet a ship on the way to the witchpoint, will find this almost impossible when the witchpoint buoy has been destroyed.

The authors of the GRS BouyRepair OXP (Cmdrs. Walch and Svengali) investigated the causes behind the slow replacement of bouys and found a systemwide shortage. Bringing in a new buoy from far away and installing it took so much time that in most cases the pilot reporting the destroyed bouy was already in another system when its replacement arrived.

Buoy Factories

GRS Facility

Walch and Svengali found that Industrial systems with a medium tech level were prepared to build buoys for a reasonable price. Low tech level systems didn’t have the skills to build the buoys, while high tech level systems considered the work to be beneath them. The availability of metal ore in the system was also a factor in selecting suitable production sites. Alloys for the construction of the bouys had to be readily available in the system. The buoys themselves are not strong enough to lift off a planet’s surface, so they have to be assembled in space.

Cmdr. Svengali designed a factory assembly station for assembling the bouys. Parts are pre-fabricated on the planet surface and are then flown to the assembly station in shuttles. These factories are in a constant need of alloys and will also buy alloys flown in from other systems.

The assembly stations have technologically advanced docking bay sealing: A force-field that keeps the air inside while allowing ships to pass trough. This makes it possible to load or unload ships with normal clothing instead of using pressurised suits. The disadvantage to this form of docking is that approaching pilots have no clear view of the landing bay and have to use special guiding technology to find the right flight path. Vehicles equipped with a docking computer are able to lock onto the assembly station's guidance beacon in the same way thry would with any orbital docking station.

Buoy Transport vehicles

GRS Buoy Tug-Ship Armadillo

Buoys are approximately the same size as a medium ship like a Cobra. This means they won’t fit in the cargo bay of most normal ships. Walch and Svengali realised a specialised spaceship carrier would be required to transport them. A craft large enough to carry the bouys in a hold was rejected as too expensive, with the authors opting instead for the lower-cost solution of towing the buoys. Cmdr. Svengali designed the Armadillo for this role: a powerful tugship capable of delivering the buoys to their positions at a reasonable speed.

Distribution System

GRS Distribution System

In order to speed the process of delivering replacement bouys on demand, Cmdr. Walch designed the GRS Distribution System to send newly-assembled buoys from the factory to other systems before they are actually needed. Once docked in another system, the replacement buoys are safely stored in the main stations. This means that when a buoy gets destroyed, a new one can be brought into place from a nearby store, arriving much more quickly than a replacement brought from another system would.

If the main station buoy needs to be replaced, a new one can be retrieved directly from the station in almost no time. If a witchpoint beacon is destroyed a new one can be quickly brought in by hyperspace by a tug jumping in with a buoy from an adjacent system.

Large Traders and fuel ships

GRS Fuel-Ship Guanako

Each GRS station has facilities to accommodate large traders that are too big to dock at a regular station. These large ships can dock at one of the two external docking bays, passing goods on to normal sized trader vessels which can deliver goods directly to the local main station or to a station in an adjacent system. GRS has also built some large fuel ships which scoop plasma from nearby stars, transform it into quirium and deliver this fuel to the GRS station. In this way each GRS station can also be used as a refuelling stop by any visiting trader.

Installation

Download the file "buoyRepair1.02.5.oxp" and put it in Oolite’s AddOns folder. After a restart the new factories are in place and the distribution of the replacement buoys will start. Now, when a buoy gets damaged, a replacement sequence is started within 2 minutes. Sometimes replacement takes longer when traffic around stations is too busy. This is dependent on the local station manager’s ability to schedule dockings and launches.

Version requirement

OXPConfig compatible.png

The latest version of this OXP needs Oolite 1.72 or higher to work and is compatible with OXPConfig.

Download

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BuoyRepair1.02.5.zip (496KB) - (Updated 7/10/2009) requires v1.72.

BuoyRepair1.01.6.zip (319KB) - (Updated 08/06/2008) requires v1.71.2.
BuoyRepair_teaser.zip (504 KB) - this is a small appetizer.

BuoyRepair00019.png