BlueMoon: Руководство по телекоммуникациям: различия между версиями
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Настройка всех машин осуществляется мультитулом. Что бы привязать мультитул к машине, нажмите [Add Machine] напротив [Multitool buffer]. И соответственно нажмите [Link] на необходимой машине, что бы привязать её к вашему буферу. Большинство машин также имеют ФИЛЬТРЫ, определяющие, какие частоты передаются через те или иные устройства. Кроме того, у каждой машины есть [Identification String], которая представляет собой её уникальное имя, и [Network], по умолчанию tcommsat, что позволяет ей связываться только с машинами в той же сети. ЕСЛИ ВЫ ИЗМЕНИТЕ [Network], ЭТО ПРИВЕДЁТ К РАЗЪЕДИНЕНИЮ ВСЕХ СИСТЕМ. ИЗМЕНЕНИЕ ИМЕНИ СЕТИ ХАБА — РАСПРОСТРАНЕННЫЙ МЕТОД САБОТАЖА В ГЕТТО. СЛЕДИТЕ ЗА ЭТИМ. | Настройка всех машин осуществляется мультитулом. Что бы привязать мультитул к машине, нажмите [Add Machine] напротив [Multitool buffer]. И соответственно нажмите [Link] на необходимой машине, что бы привязать её к вашему буферу. Большинство машин также имеют ФИЛЬТРЫ, определяющие, какие частоты передаются через те или иные устройства. Кроме того, у каждой машины есть [Identification String], которая представляет собой её уникальное имя, и [Network], по умолчанию tcommsat, что позволяет ей связываться только с машинами в той же сети. ЕСЛИ ВЫ ИЗМЕНИТЕ [Network], ЭТО ПРИВЕДЁТ К РАЗЪЕДИНЕНИЮ ВСЕХ СИСТЕМ. ИЗМЕНЕНИЕ ИМЕНИ СЕТИ ХАБА — РАСПРОСТРАНЕННЫЙ МЕТОД САБОТАЖА В ГЕТТО. СЛЕДИТЕ ЗА ЭТИМ. | ||
=== | ==Машины== | ||
== The Machines == | |||
There are 5 different kinds of machines essential for a healthy telecommunication network. Without one or the other, the entire system would cease to function or would not function optimally. All telecommunication machines idle until they receive a signal, and all the machines are built with Hyperwave Filtering modules that allow for the scanning of signal's frequency regardless of intensity. This means each machine can selectively choose which signals to pay attention to, if there are any specified frequencies to tune into. | |||
{|class="wikitable sortable mw-collapsible" style="background-color:#FF9D001e" | |||
|-style="font-weight:bold; color: white; text-align:center;" | |||
! style='background-color:#FF9D00; width:125px;' |Machine | |||
! class="unsortable" style='background-color:#FF9D00;|Description | |||
|- | |||
![[File:Sreceiver.gif|64px|class=pixelart]]<br>Subspace receiver | |||
|''Subspace Receivers'' are essential to a subspace telecommunication network. They have a long-term subspace window open at all times, and create the subspace-equivalent of a gravity well in its warped version of space-time. FTL signals traveling in subspace are going too "fast" to be sucked into the gravity well, but a carbon copy of the signal is produced whenever a signal passes through the pocket. This signal is then converted into a real radio wave by the Subspace Receiver and passed onto all immediately-linked machines. In a typical scenario only Bus Mainframes would receive the signal. | |||
|- | |||
![[File:Relay.gif|64px|class=pixelart]]<br>Telecommunication Relay | |||
|''Telecommunication Relays'' are very essential creating a full network. They allow the network to expand by being able to send signals past Z levels. Meaning that when saying something in the radio, after the message is processed the HUB will locate all linked relays and add their Z level information to the signal data, which will then broadcast on the level when it reaches the broadcaster. It works by charging atoms for an almost faster than light signal. It then gets broadcasted to the hub, the only machine that can receive these almost-light speed signals and then sends them ideally to a Bus Mainframe. | |||
|- | |||
![[File:Hub.gif|64px|class=pixelart]]<br>Telecommunication Hub | |||
|''Telecommunication Hub'' is the main junction for the network. It is connected to many relays that are scattered along space, waiting to receive and send information to buses and relays. It uses a high level technology of circuits to send information as efficiently and as fast as possible. | |||
|- | |||
![[File:Bus.gif|64px|class=pixelart]]<br>Bus Mainframe | |||
|''Bus Mainframes'' regulate and handle the transfer of massive quantities of data at near instantaneous speeds. They are not essential to a network, but are required to keep data transfer instant. They usually transfer data back and forth between servers and processor units. If a Bus Mainframe is missing, network output may be unreliable or slow. | |||
|- | |||
![[File:Pro.gif|64px|class=pixelart]]<br>Processor Unit | |||
|''Processor Units'' decrypt, clean and stretch hyper-compressed radio signals. Radio signals are sent into subspace using a preset encryption hash but random seed, which makes the process of encrypting and sending very light but unpacking and decrypting heavy due to the weird nature of subspace. Processor Units can instantly make signals readable by other machines. They are not essential to a subspace network but if one is missing, network output may not be understandable. | |||
|- | |||
![[File:Server.gif|64px|class=pixelart]]<br>Telecommunication Server | |||
|''Telecommunication Servers'' log network statistics and signal traffic for easy maintenance. Each server represents a "channel" in the Nanotrasen default settings. They can listen in to multiple channels, however. For each signal that is sent to a server, a database entry is created and the signal's information is stored. The servers also help by sorting the order in which signals are transferred to subspace broadcasters, which is vital for instantaneous signal transferring. | |||
|- | |||
![[File:Broad.gif|64px|class=pixelart]]<br>Subspace Broadcaster | |||
|''Subspace Broadcasters'' are impressive pieces of hardware that are capable of opening large enough subspace windows to transfer de-compressed data bursts, in encoded radio waves, through. They are necessary for any network that is expected to output information back to receiving radio devices. They operate by directing high-powered lasers into a small subspace window and fluctuating the amplitude of radio waves through subspace, allowing the large data packets easier entering and exiting of subspace. | |||
|- | |||
![[File:Message_server_anim.gif|64px|class=pixelart]]<br>Messaging Server | |||
|''Messaging Servers'' process and route PDA and request console messages. Takes 15 minutes of calibration before it works if newly constructed. <br>Use a multitool to configure its settings and link it to the (tcommsat) network and hub. If there is no active messaging server, PDA and request console messages won't work. | |||
|- | |||
![[File:Blackbox_recorder.gif|64px|class=pixelart]]<br>Blackbox Recorder | |||
|Only used for keeping [[High-risk_items#The_Blackbox|The Blackbox]] theft objective. | |||
|- | |||
|} | |||
* Subspace Receiver: принимает радио сигналы | * Subspace Receiver: принимает радио сигналы | ||
* Subspace Broadcaster: отправляет радио сигналы | * Subspace Broadcaster: отправляет радио сигналы | ||