Cable CoPS: Using Fibre Optic Cable for Construction Perimeter Security

Cable CoPS：使用光纤电缆实现建筑周边安全

• 批准号: 10063911
• 金额: --
• 依托单位: THALES GROUND TRANSPORTATION SYSTEMS LIMITED
• 依托单位国家: 英国
• 项目类别: Collaborative R&D
• 财政年份: 2023
• 资助国家: 英国
• 起止时间: 2023 至 无数据
• 项目状态: 已结题
• 来源: https://gtr.ukri.org/projects?ref=10063911
• 关键词: Cable; CoPS; Using; Fibre; Optic

Intruders on railway construction are a major problem for the industry, as this may expose intruders to significant safety risks, the construction company a risk of theft, or the customer a disruption to their schedule due to either of these. Rapid intervention acts as a deterrent for return visitors and can prevent acts of vandalism and theft. Our proposed system, Cable CoPS, will make pinpointing an intruder's exact location easier and more reliable than current state-of-the-art technology.This proposal is for the delivery of a Phase 1 Feasibility Study to determine the applicability and costs of a Phase 2 onsite trial to use technology to provide the following:* remote sensory system, anti-trespass systems, unattended monitoring for trespass* innovation in perimeter protection and monitoring technology to address planning or aesthetic considerations, and to reduce security costs of physical infrastructure, including the use of non-barrier technologyThe feasibility study and Phase 2 trial will build on trials of this fibre optic technology that Thales are currently undertaking to determine the most effective installation in a greenfield application. Current trials delivered on existing infrastructure do not allow for optimisation of the type and location of fibre used or how it is installed.Conventional site monitoring technologies have downfalls e.g. short ranges, high false positive rates, as well as high deployment cost. Large construction sites require systems that can protect many areas of vulnerability automatically, with minimal human supervision and suitable precision to direct responders to the correct location. In the scenario of the GCRE Test Track this needs to be done as quickly as possible to minimise the security threat risk.Thales and their technology provider Focus Sensors have developed a system capable of delivering a persistent perimeter detection system that can sense someone approaching a site before they reach a perimeter. It would alert staff to a trespassers precise location allowing them to respond to the issue efficiently.This technology can be utilised in many environments -- currently it is being validated along regular sections of the railway -- and in the Cable CoPS project we will understand its operation at specific, sensitive locations such as warehouses or construction sites. Due to the long range and autonomous nature of the system, it drastically reduces the workload of staff. Instead of relying on a significant number of CCTV cameras, walls and fence, our system would allow for independent operation to detect intruders.

铁路建设中的入侵者是该行业的一个主要问题，因为这可能使入侵者面临重大的安全风险，建筑公司面临盗窃风险，或客户因这些原因而中断其计划。迅速干预可起到威慑回访者的作用，并可防止破坏和盗窃行为。我们建议的Cable CoPS系统，将比目前最先进的技术更容易和更可靠地确定入侵者的确切位置。这项建议是为了进行第一阶段可行性研究，以确定第二阶段现场试验的适用性和成本，使用技术提供以下内容：* 遥控感应系统、防侵入系统、* 创新周界保护和监控技术，以解决规划或美学方面的考虑，并降低物理基础设施的安全成本，包括使用无障碍技术可行性研究和第二阶段试验将建立在泰雷兹目前正在进行的光纤技术试验的基础上，以确定在格林菲尔德应用中最有效的安装。目前在现有基础设施上进行的试验无法优化所用光纤的类型和位置以及安装方式。传统的现场监测技术存在缺点，例如距离短、误报率高以及部署成本高。大型建筑工地需要能够自动保护许多脆弱区域的系统，最少的人为监督和适当的精度将响应者引导到正确的位置。在GCRE测试轨道的情况下，这需要尽快完成，以最大限度地降低安全威胁风险。泰雷兹和他们的技术提供商Focus Sensors开发了一种系统，能够提供持久的周界检测系统，可以在有人接近场地之前感知到他们。该技术可用于许多环境--目前，它正在沿着铁路的常规路段进行验证--在Cable CoPS项目中，我们将了解其在特定敏感位置（如仓库或建筑工地）的操作。由于该系统的远程和自主性质，它大大减少了工作人员的工作量。我们的系统不依赖大量的闭路电视摄像头、墙壁和围栏，而是允许独立操作来检测入侵者。