A dog-training system may include a user tracking device coupled to a user and a dog tracking device coupled to a dog. The user tracking device may include a first wireless transceiver for exchanging location data with the dog tracking device. The dog tracking device may include a second wireless transceiver for exchanging location data with the user tracking device. A method of training a dog may include obtaining first data associated with the user from the user tracking device and second data associated with the dog from the dog tracking device. The method may include identifying a boundary relative to the user based on the first data and determining whether the dog crosses the boundary based on the second data. The method may include providing feedback to the dog or the user responsive to determining the dog crosses the boundary.

In some implementations, a system may receive exchange data that includes a credential for an exchange and an indication of an entity associated with the exchange. The system may determine that an entity location is within a threshold distance of a target location included in a set of target locations. The system may determine a baseline location associated with a user. The system may determine that the baseline location is outside of a threshold proximity of all target locations included in the set of target locations. The system may transmit, to a mobile device associated with the user, a message that includes an indication of the target location based on determining that the entity location is within the threshold distance of the target location and based on determining that the baseline location is outside of the threshold proximity of all target locations included in the set of target locations.

A service indication method includes: acquiring service indication information, the service indication information including at least one of support information about a service and preference information about the service, the service including at least one of an emergency service and a voice service; and performing a relevant operation on the service in accordance with the acquired service indication information.

Techniques to provide on demand rental of electric vehicles are disclosed. In various embodiments, data representing one or more of a location and an availability state of each of a plurality of electric vehicles comprising a fleet of electric vehicles made available for use on demand is received. The received location and availability state data is used to determine a set of vehicles currently available to be used. Data is provided to each of a plurality of user, the data provided to each user indicating the respective locations of one or more vehicles currently available for use by the user within an area of interest associated with the user.

In one example embodiment, a computer-implemented method and system for issuing alerts are disclosed. The method includes receiving device information for one or more mobile devices; sorting the received device information based on pre-determined criteria; evaluating the sorted device information to determine if the device information satisfies a specified condition; and issuing alert based on the determination. The system for issuing alerts includes a storage database, wherein the storage database receives device information for one or more mobile devices; an analytics engine, wherein the analytics engine sorts the received device information based on pre-determined criteria; a rules engine, wherein the rules engine evaluates the sorted device information to determine if the device information satisfies a specified condition and issues alerts based on the determination.

One variation of a method for assisting execution of manual protocols at production equipment includes: identifying a site occupied by a mobile device based on a geospatial location of a device; identifying a space within the building occupied by the device based on identifiers of a set of wireless access points wirelessly accessible to the device and known locations of wireless access points within the building; loading a protocol associated with an equipment unit in the space; calculating a position of the device within the space based on positions optical features, detected in a field of view of an optical sensor at the device, relative to reference features represented in a space model of the space; and, when the position of the device falls within a threshold distance of a reference location proximal the equipment unit defined in a step of the procedure, rendering guidance for the step.

A method, apparatus and network node for clustering a terrestrial area based on Geohash coordinates by selecting a node based on a Geohash area identified by a Geohash string of a predetermined length; subdividing the Geohash area into subareas by increasing the Geohash string by a length of one; and sequencing through the subareas to identify subarea/subareas that exceed a threshold number of a selected parameter. For subareas not exceeding the threshold number of the selected parameter, combining those subareas into clusters without exceeding the threshold number of the selected parameter in respective clusters. For subareas exceeding the threshold number of the selected parameters, subdividing those subareas into further subareas by increasing the Geohash string by one and sequencing through the further subareas to place the further subareas into clusters without exceeding the threshold number of the selected parameter.

A device may include a memory storing instructions and processor configured to execute the instructions to select a vehicle attached to a base station; determine a speed and a vehicle type associated with the vehicle; and calculate an estimated braking distance for the vehicle based on the speed and the vehicle type. The processor may be further configured to generate a geofence for the vehicle based on the calculated estimated braking distance; use the generated geofence to identify at least one relevant Vehicle-to-Everything (V2X) message to be forwarded to the vehicle; and forward the identified at least one relevant V2X message to the vehicle via the base station.

An improved system and method for defining an event based upon an object location and a user-defined zone and managing the conveyance of object location event information among computing devices where object location events are defined in terms of a condition based upon a relationship between user-defined zone information and object location information. One or more location information sources are associated with an object to provide the object location information. One or more user-defined zones are defined on a map and one or more object location events are defined. The occurrence of an object location event produces object location event information that is conveyed to users based on user identification codes. Accessibility to object location information, zone information, and object location event information is based upon an object location information access code, a zone information access code, and an object location event information access code, respectively.

A method for coordinating multiplexed communication of data among multiple piloted assets and multiple requestors via a common software application includes receiving a mission request via the common software application, defining a common mission based on the mission request via the common software application, and coordinating the multiplexed communication using multiple communication channels. The coordinating includes exchanging data with multiple piloted aerial drone assets relaying a communication from one of the piloted assets to at least one other piloted asset, via the software application. When a new piloted asset joins the common mission, communication is facilitated via the software application between the further piloted asset and the multiple piloted assets. Upon detection that a piloted asset from the multiple piloted assets is no longer associated with the common mission, communication via the software application between that piloted asset and the remaining piloted assets is prevented.