Autonomous delivery robots have been employed in several hospitals across the United States to transport medical equipment, medicine, and food. However, they still face many difficulties, especially with the localization of robots within buildings, since most robots are currently using outdated techniques such as landmark recognition, beacons, or RFID tags. These methods are not only imprecise and unreliable but they also require a careful setup/distribution of special hardware in the hospital. Additional sensing and computing power are also needed for searching and detecting of landmarks, ultimately increasing manufacturing costs.
We propose an innovative solution with a Smart Global Positioning System (S-GPS) framework and a novel algorithm for tracking delivery robots using multilateration technique with optimal number of references. The S-GPS framework enables to compute coordinates of all static sensors and mobile robots within the building and allows for fault tolerance in case of sensor failures. The algorithm provides precise localization of patients and delivery robots for improved navigation.
⋅ ⋅ ⋅For an overdetermined system in the form ⋅ , the least squares approximation can be obtained by multiplying both sides of the equation by the transpose of matrix A, such that
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