How Can We Measure Heart Rate, Indoor Positioning Systems and RTLS Solutions? The most tangible advantage of indoor positioning to consumers is the facilitation of indoor location-aware mobile computing. The subjects' heart rates were monitored before, during, and after the treadmill exercise. The Apple Watch and the Mio Fuse were the two most reliable devices, each providing results that were accurate around 91% of the time. Both the Fitbit Charge HR and the Basis Peak were found to be accurate about 84% of the time, while the Polar H7 was only accurate about 85% of the time. Ready-to-deploy or custom digital technology solutions are what
Real-Time Location Solutions (RTLS) rely on to automatically
identify and track the whereabouts of assets, patients, and employees in real time.
Indoor Positioning Systems: Infrared-based indoor positioning systems use light pulses emitted by infrared emitters (like a TV remote) to locate signals within a building. IR receivers are placed in every room, and when the IR receiver device receives an IR tag pulse, the information is on the tag. Infrared is a method that seldom fails to deliver accurate readings of room levels. Thankfully, it may be suited to interior situations through indoor positioning systems. IPS is unquestionably well within the range of accuracy that it considers acceptable, with a precision of 1-2 meters together with deft processing of the estimated location.
RTLS Solutions: In most cases, the RTLS system functions by affixing a position tag of some form to the tracked object. The label on these tagged items sends signals to stationary