Drones in Security and Surveillance.
ISR and Situational Awareness.
Unmanned aircraft systems provide the ideal solution to the problems and limitations faced by other surveillance methods. Drone surveillance presents an easier, faster, and cheaper method of data collection, and a number of other key advantages. Drone planes can enter narrow and confined spaces, produce minimal noise, and can be equipped with night vision cameras and thermal sensors, allowing them to provide imagery that the human eye is unable to detect.
Traditional observational surveillance methods are typically limited by the stationary nature of the camera, which is usually handled manually or fixed upon a tripod or other structure. Aerial surveillance can be performed using a helicopter; whilst this achieves the desired result, it is also very costly.
UAVs can quickly cover large and difficult-to-reach areas, reducing staff numbers and costs, and do not require much space for their operators.
Typical application for drones in surveillance and security are:
- Oil and Gas
- Event Security
- Solar Farms
- Traffic Management
Classes of Drones
The U.S. Military UAV tier system is used by military planners to designate the various individual aircraft elements in an overall usage plan. Unmanned Ariel Vehicles can be categorised in terms of range/altitude.
- Hand-held 600 m altitude, about 2 km range
- Close 1,500 m altitude, up to 10 km range
- NATO type 3,000 m altitude, up to 50 km range
- Tactical 5,500 m altitude, about 160 km range
- MALE (medium altitude, long endurance) up to 9,000 m, range over 200 km
- HALE (high altitude, long endurance –) over 9,100 m indefinite range
- Hypersonic high-speed, supersonic, or more..
The type of UAV you will use depends on your application, eg the USA southern border is patrolled by MALE UAVs (Predator) for Detection, but this is supplemented by smaller drones for Identification and Situational Awareness during Response actions.
ISR (Intelligence, surveillance and reconnaissance)
ISR is the coordinated and integrated acquisition, processing and provision of timely, accurate, relevant, coherent and assured information and intelligence to the commanding officer’s conduct of activities.
Examples of ISR systems include surveillance and reconnaissance systems ranging from satellites, to manned aircraft such as the U-2, to unmanned aircraft systems fixed wing or multi-copter. This includes DRI, SA and Response or ReACT.
DRI (Detection, Recognition, Identification)
Resolution required for Detection, Recognition, and Identification depends on the type of camera.
Resolution for thermal cameras and optical IP cameras are measured differently.
For example, when defining the performance of a thermal camera we use the Johnson Criteria of “detection”, “recognition” and “identification” (DRI). On the other hand, IP camera resolution performance is usually defined by the number of pixels in the sensor, and we are usually interested in the ability to identify a person.
How much resolution do you need? This article compares how resolution is defined using thermal and optical technologies.
In military circles, “identification” is used along with “detection”, and “recognition” as part of the DRI criteria established by John Johnson in 1958.
- Detection: Ability to distinguish an object from the background
- Recognition: Ability to classify the object class (animal, human, vehicle, boat …)
- Identification: Ability to describe the object in details (a man with a hat, a deer, a Jeep …)
The following pictures illustrate these definitions:
Left image: Detection – At several kms, 2 targets are detected out of the background
Center image: Recognition – a human is walking along the fence
Right image: Identification – 2 males with trousers and jackets are identified – one is smoking.
Optical IP Cameras
Optical IP cameras provide color images and this can help identify or recognize the object. They will switch to monochrome or black-white when it gets very dark. We use the terms detection, recognition and identification differently in surveillance applications. Sometimes we have different meanings depending on the application. Here are some examples:
- Detection: We sometimes detect or observe something moving in the distance. We require different resolution for each of these applications, so we have to define what we mean before calculating the resolution
- Recognition: Sometimes we use this term when we want to recognize the object as a man or a woman. In this case we are interested in how people or vehicles are moving, rather than the details (identity) of the objects.
- Identification: In surveillance applications we usually mean identifying who a person is, or the license plate number, or maybe the numbers on the tail of a plane.
Comparison of Thermal and Optical Technology
Thermal cameras and optical cameras use totally different technology. The thermal cameras provide images based on the heat energy (Infra-Red) emitted by the object, while the optical camera provides an image from the light reflecting off the object.
The optical IP cameras provide better detail than thermal cameras because they provide color video rather than the false color provided by monochrome thermal cameras. Color provides much more information and makes it easier to identify things. Since, the thermal cameras use heat energy from the target, they operate in total darkness, while optical cameras require some light source.
To “see” at night with an optical IP camera, we use standard white light or IR light that reflects off the target. Optical cameras are sensitive to infra-red (IR) light, but at a different frequency than the thermal cameras. IR illuminators that operate at 850 nm or 940 nm can be used with IP cameras for night vision.
We usually measure thermal resolution in line pairs, and we measure IP camera resolution in pixels.
Resolution Criteria for Thermal Cameras
Note that the Criteria was defined in cycles on target (or line pairs across a target).
Table 1: Summary of Johnson Criteria
Discrimination Level (Cycles on Target) Description
Detection (1.0±0.25) Object is of threat level significance
Orientation (1.4±0.35 ) Object aspect
Recognition (4.0±0.8) Class of object (Jeep, tank, etc.)
Identification (6.4±1.5) Member of class
Resolution Criteria for Optical Cameras
IP cameras use different criteria for detection, recognition and identification. Instead of line pairs, we use the pixel count to measure resolution. This provides a more defined way of determining what detail we can see. The resolution of IP Cameras is defined by how many megapixels they provide (1.2 megapixels, 2.0 megapixels, etc.). This is further defined by the horizontal and vertical pixel count (i.e. 1280 x 720, or 1920 x 1080, etc.). We also use pixels /ft. (or pixels/m) rather than pixels on target to determine the resolution we need for specific applications.
Here is a summary of the criteria, with a description of what we can discern at a certain resolution (defined in pixels/ft.).
Table 2: Summary of IP Camera resolution terms
|Detection:||1.6 pixels/ft.||Assumes that we require at least 9 pixels across a target, for example, a 5’ 7” person|
|Recognition||2.7 pixels/ft.||This assumes we need at least 15 pixels across the target (that’s 5’ 7”), and allows us to determine if the target is a man or women (if they are wearing different clothes).|
|Identification||80 pixels/ft.||Usually refers to being able to identify a person you know, and requires about 40 pixels across the face.|
Thermal camera resolution is measured differently than Optical IP camera resolution. They use different technology. Thermal cameras are measured using line pairs and the DRI criteria, while optical cameras generally use pixels/ft. (or pixels/m).
USES FOR DRONE IN SURVEILLANCE AND SECURITY
Different parts of the security industry have differing requirements, one can distinguish between two types of approach:
- monitoring Lines and
- monitoring Sites.
- fixed-wing UAVs are used to perform high-level highway, coastal and border surveillance.
- provide high-level feedback on illegal border crossing, smuggling or wild animal traffic.
- multi-rotors are used more frequently, as they provide higher manoeuvrability and can hover more easily.
- provide live streaming of detailed data, follow objects or intruders from a safe distance and quickly cover a large area,
- record images that can identify whether part of a forest or a slag heap is missing.
Oil and Gas
Because of current global financial conditions oil are focusing their attention on less developed areas the Middle East and Africa. This brings a different series of security challenges such as:
- Prevention of pipeline sabotage and oil theft and illegal oil trafficking
- Installation of a high performance security fencing UAV / Drone perimeter detection and response systems
- Re-positioning of assets and slow moving heavy lift vessels in offshore Oil & Gas
Perimeter Response | Ground Security Forces
- a rapid response and fast “eyes on” to the target area
- live updates to control stations
- active waypoint tracking can be maintained based on the target parameters, like thermal signatures.
- the ability to collect imagery, ideally suited for reconnaissance or rapid situation awareness with application for ground force units to detect and monitor potential threats from a safe distance.
- not only reduce the requirement for foot patrols by security guards, but also provide an additional oversight in instances where security guards are deployed to ensure their adherence to patrolling routines.
- The speed, size, manoeuvrability and additional technologies make UAVs the perfect supplement to ground security teams seeking to perform monitoring tasks more quickly and efficiently.
- Drones have a competitive edge over stationary cameras, as intruders can’t easily step out of sight, and they can cover areas that are normally out of reach.
- Counter Piracy Operations: UAVs are useful to monitor, analyze and anticipate pirate vessel movements. This allows security forces to identify hazardous areas, potential assault locations and timings and evaluate piracy trends around the world.
- Super Yacht Security: UAVs are involved in protection services for super yachts which has helped crews to stay safe, reduced delays and minimized cost overruns. Such services add value by reducing insurance premiums and assuring stakeholders that company assets are secure.
UAVs are instrumental in managing the critical facets of security & safety at major events,
- from event security infrastructure,
- through to spectator and crowd control and
- safety to overall health and safety planning.
- completion of initial security risk assessments to developing bespoke security infrastructure solutions.
- including general security, such as vehicular access, landscapes, fire evacuation procedure and adaptation of the original building design
- provide detailed visual documentation of sites, enabling effective analysis, risk management and security planning. Ab
- provides a detailed description of the use and performance of road networks.
- data collected in traffic monitoring is used to support the safety, performance, and maintenance of the roads.
- Aerial surveillance drones offer a much more efficient and cost-effective alternative to helicopters and static cameras.
- use waypoint navigation which allows them to be programmed to fly along specific routes repetitively; they can also be deployed to fly over specific roads and in specific situations.
- UAVs are also significantly cheaper than helicopters
- they can be deployed more often, thus increasing the overall performance of the traffic monitoring operations.
- Aerial assistance is essential in SWAT operations as it facilitates the tactical implementation of multi-angle information.
- one of the main problems with helicopters is they are not typically kept in rural areas, so this slows down the response time as units have to wait for them to be deployed.
- Helicopters are also very noisy, and costly to run because they require professional personnel to operate them.
- can be deployed instantly when needed, cost a lot less than a helicopter, and also have a very low noise footprint so they’re suitable for use in sensitive missions.
Poaching is typically related to large parks and habitats, and close surveillance of these areas is difficult.
- A surveillance drone is the ideal solution to the problems faced by other anti-poaching methods.
- Drones can be equipped with not only cameras, but also thermal sensors and sniffers that enable them to detect poachers and hazardous gases.
- UAVs can cover large areas at a fraction of the cost of a helicopter;
- they can also be kept on site for rapid deployment,
- and they have a very low noise footprint which doesn’t disturb the animals or alert the poachers to the presence of the drone