Security teams are being challenged with finding the most cost-effective way to inhibit intrusions and respond rapidly and efficiently to threats. They need real time data, tracking and monitoring the entire site, inside and outside the perimeter. A system able to provide high level of surveillance and operational effectiveness, with high detection rates in all weather and light conditions, with unlimited targets and low false alarm rates.
An Intelligent Threat Analysis providing the user with a wealth of information. Highly configurable and scalable, the solution is tailored to cover the entire site, inside and outside the perimeter.
A multi-layer alarm system can be configured to provide the control room with advance warning of potential threats, even before an intrusion occurs.
Problems We Solve
Airports represent a key target for intrusion and disruption. Maintaining safety and security, and detecting potential threats before they occur is a major concern for airports around the globe. AdvanceGuard is an adaptable and scalable solution providing advance warning even before an intrusion.
Critical Infrastructure Sites
Critical Infrastructure sites require rigorous 24/7 surveillance, not only detecting access to unauthorised areas, but also intrusion with the purpose of theft and damage. AdvanceGuard is a fully automated rules-based software, which can differentiate activity patterns at all times of the day.
Ports and Harbours
The lack of physical barriers at ports and harbours precludes the use of many traditional security technologies. AdvanceGuard's radar sensors detect movement over land and water. Its intelligent rules-based software draws virtual perimeters and alerts are raised when pre-set rules are broken.
Frequently Asked questions
1. Are AdvanceGuard Sensors classified as dual use for export purposes ?
No. AdvanceGuard does not fall into the EU dual use category and hence does not need export control. For more information refer to page 236 of the the UK Strategic Control Lists, where the specifications for a dual use radar are stated.
2. Can AdvanceGuard be installed in a remote location?
AdvanceGuard HDR sensors can be installed in remote locations without power and data connections. This is achieved with a renewable power installation such as a solar panel, and a wireless data link. This eliminates expensive civil works and makes installation quicker.
3. What is the power consumption of the sensor?
Nominal consumption is 18 Watts peaking to 36 Watts at 24VDC.
4. What is the network bandwidth usage?
AdvanceGuard’s HDR 100 and HDR 200 sensors internally process the raw data from the sensor before sending it across the network. The traffic is in the order of kbs per sensor, and depends on the number of objects being tracked. HDR 300 sensors require an external processing platform.
5. What connectivity does the sensor support?
Connection to the sensor is via ethernet. Each HDR sensor unit has an RJ45 socket. We recommend cat5 cable that connects the sensors, not to exceed 70m in length. Longer lengths should make use of switches or fibre converters.
6. What is the ideal mounting height?
The usual mounting height for the HDR sensors is around two metres, though actual mounting height can vary depending on the specific site, the type of sensor and whether the beam is angled. The X variant units have been designed to be mounted from three to six metres, giving a minimum detection range of about six metres for a man walking upright.
7. What is the beamwidth?
The azimuth beamwidth is 2° for the HDR 100 and HDR 200 series and 1° for the HDR 300 series. The main elevation beamwidth is 2°, 4° and 3° for HDR 100, HDR 200 and HDR 300 series respectively. The X variant sensors in addition have a close-range infill beam of approximately 25°. Beamwidth is measured one-way.
8. At what ambient temperatures can the sensors operate?
Our sensors will operate over -20°C to +60°C. We can offer an extended temperature range down to -40°C on request.
9. Can the HDR sensors be used on the move?
Not as an intruder detection device, as the sensor has to be static in order to be able to detect movement.
10. Can the HDR sensor be inverted?
Occasionally there is a need to mount the sensors up side down, from the roof for example. Please contact us to discuss the application.
11. What is the minimum time required to detect an object?
The default object tracking settings require the HDR sensor to ‘see’ a potential object three times out of five revolutions before determining a positive threat (this reduces false alarms). If the sensor is operating at 4Hz, it will take 1.25 seconds to register. If the sensor is operating at 1Hz, it will take five seconds to register. All three series of HDR sensor support multiple rotation speeds.
12. What is the operating frequency and bandwidth of the radar?
All HDR sensors operate in the W band, from 76 GHz to 77GHz.
13. What output power does the sensor emit?
The transmitted power will be within the limits specified by EN301 091. Peak EIRP is between +42dBm to +55dBm EIRP and the average is between 16dBm to 29dBm EIRP.
14. Does AdvanceGuard interfere with aviation systems?
All HDR sensors conform to ETSI standard EN301 091. Confirmation of compliance with aviation systems is the responsibility of the systems integrator/end user.
15. What is the safe working distance?
Each sensor has a different safe working distance. A typical value for a rotating HDR sensor is just 3cm from the antenna within the radome. Please contact Navtech for certified data by sensor type.
16. Is AdvanceGuard affected by adverse weather conditions?
AdvanceGuard maintains its stated performance levels regardless of rain, fog, snow and varying light levels.
17. Will AdvanceGuard work at sea?
If the water is calm, AdvanceGuard will detect objects in the normal way. Very rough sea could cause false alarms or potentially mask a small boat.
18. Is AdvanceGuard susceptible to jamming?
Susceptibility is very low. Each AdvanceGuard HDR sensor would need to be jammed from all azimuths – a point source jammer would affect only a single azimuth. Jammer technology operating at the correct sweep frequency within the 76-77GHz band would be very difficult to produce with an output power sufficient to jam the radar.
20. Does AdvanceGuard provide other interfaces?
AdvanceGuard can interface with third party systems via ICD-001, ICD-100, Asterix CAT-10 and/or multiple ethernet relay units, providing multiples of 6 digital inputs and 6 relay outputs. These I/O lines can be linked to various actions/events within Witness Software.
21. What cameras does AdvanceGuard support?
AdvanceGuard currently supports a selection of cameras, as detailed in the camera control datasheet. Additional cameras can be added (at cost) if they support industry standard interfaces such as ONVIF or Pelco D as well as absolute positioning commands.
21. What training is offered?
Navtech offers both customer and system integrator (SI) training. Customer training enables a user to respond to and interact with AdvanceGuard events. SI training includes customer training, commissioning of the system, camera and ancillaries, as well as training on how to present AdvanceGuard to your customers in support of your own business development activities.