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Introduction

This section covers the use of Redundancy to increase reliability of the system.

Contents

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Overview

Redundancy is Redundancy is the duplication of critical components or functions of a system with the intention of increasing reliability of the system, usually in the form of a backup or fail-safe. The Witness software incorporates redundancy at all levels of the system. This ensures that if any individual software component fails, another part of the system will take over that role until the system can be repaired.

Management Servers

For our Management Servers, there are two components: primary and alternate. Crucially, each must be on a physically different, seperate separate server. They both run similar software, but the output from the alternate remains inactive during normal operation. The primary monitors itself and periodically pings an activity message to the back-up when healthy - a heartbeat. All outputs from the primary stop, including the activity message, when the primary detects a fault. The alternate activates its output and takes over from the primary after a brief delay when the activity message ceases. 

Track Engines

For our Track Engines, all are active but each backs up the other. This can be configured in cyclical or paired back-ups. Each Track Engine must also be on physically different servers.

Redundancy

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  • Management Servers: each Each Management Server is duplicated, and so has a back-up Management Server. Between the primary Management Sever and the alternate Management Server, a heartbeart pings back and forth every two seconds. If a heartbeat does not return within 10 seconds, the receiving Management Server marks the other as 'down'. If the primary Management Server goes down, the back-up Management Server swiftly takes control of the primary's Track Engines and Radar, ensuring no break or failure in the system.

  • Track Engines: Track Engines back-up one another. Under Topology, you can configure which Track Engines back up which. In this example, the Track Engines back-up one another cyclically, which is probably the most logical back up configuration. If one Track Engine fails, the designated back-up Track Engine takes control of the failed Track Engine's Radar to ensure no break or failure in the system. However, a Track Engine is only able to support double its allocated number of Radar: it cannot back-up two 'downed' Track Engine. 

  • Topology Manager: this This is the software that constantly manages the heartbeat, and initiates a back-up Management Server take-over if the primary Management Serve fails. 

Schematic

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  • Database Replica Setthe The database is triplicated and backed up using MongoDB software. For more information, go to Database Replication.

  • Onboard Tracker: the The software inside the radar which analyses raw radar data and generates unique target data.

  • Track Engine:- 

    • AID Rule Engine: the The rule engine analyses all incoming tracks, looking for behaviours that would indicate an incident had occurred. For example, a stopped vehicle, or a pedestrian in the wrong area. 

    • Track Recorder: this This records all tracks processed by a Track Engine for posterity. These recorded tracks are not analysed as Live data. Each Track Engine has its own Track Recorder. 

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