A collar used on animals to study their behaviors indepth. The collars were invented in 2014 by Christopher Wilmers and eco-physiologist Terrie Williams. The collars are able to give the GPS location of the animal wearing it as well as the speed and direction the animal moves the whole time it is wearing the collar. The collar also gives information on what types of movements the animal has made such as jumping, or just standing still. A company by the name of PetPace made a SMART collar for dogs which owners and vets can use to know when the dog is sick and how its body is reacting to its treatment.
Effects on Animals
It was believed that GPS collars used on animals affected their behavior. This theory was tested on elephants that lived in a zoo in the United States. They studied how the elephants behaved with and without the collars for the same amount of time for both scenarios and saw no change in behavior. A study was done with mantled howler monkeys to see if GPS Ball and Chain collars had any effect on the monkeys behavior. The study involved observing a group of collared and uncollared female howler monkeys. There was no major difference in the collared and uncollared behavior but when the study was over it was discovered that the monkeys had injuries. The collars had caused damage to the necks of the monkeys; one had small scratches and some swelling while four other monkeys had deep cuts from the collar. Two of the monkeys with the lacerations had their tissue healing over the collar.
Internet-enabled tracking collars for animals need to be designed with a multiple year lifespan to avoid interference with the animals. Satellite trackingdevices are deployed in ultra remote areas. In-order to preserve battery power the device only powers on when it is required. GSM or cellular technology is widely deployed where connectivity is available - however GSM is also highly intensive on battery power. Devices either have a large battery or are only powered on when required. Sigfox or LoRa are new technologies powering the Internet of Things connectivity. These technologies are beginning to be deployed in remote areas due to their ease of deployment and incredibly long range. The advantages of these technologies for an animal tracking collar is that the device form size can be minimised and the battery life extended greatly. Sigfox has already covered large parts of the Kruger National Park in South Africa allowing rangers to better track smaller forms of wildlife.