An approach is disclosed that receives a wireless request from a proximity key that is used to access a vehicle. The wireless request includes a key-GPS that is a set of Global Positioning Satellite (GPS) coordinates that correspond to the proximity key. A vehicle-GPS is retrieved at the vehicle with the vehicle-GPS being a set of GPS coordinates that correspond to the vehicle. A distance between the proximity key and the vehicle based is calculated on a difference between the key-GPS and the vehicle-GPS. The approach then determines whether to perform the request based on the calculated distance.

An approach is disclosed that receives a wireless request from a proximity key that is used to access a vehicle. The wireless request includes a key-GPS that is a set of Global Positioning Satellite (GPS) coordinates that correspond to the proximity key. A vehicle-GPS is retrieved at the vehicle with the vehicle-GPS being a set of GPS coordinates that correspond to the vehicle. A distance between the proximity key and the vehicle based is calculated on a difference between the key-GPS and the vehicle-GPS. The approach then determines whether to perform the request based on the calculated distance.

A system and a method of protecting master passwords from technicians/employees that need access to at least one of the security systems such as an access control, a CCTV/surveillance system, burglar alarm and fire alarm system on a network with no internet access is provided in the present disclosure. The method includes creating a ciphered version of a master password for a user i.e., encrypting the ciphered password and creating an encryption key on a password management server, transmitting the ciphered password to a Smartphone application on a user device by securely authenticating the user on the Smartphone application. Further, transferring the ciphered password and the encryption key to an Intelligent USB Drive via using Bluetooth® by securely authenticating the USB Drive with the user device and then connecting the USB drive to the security system via USB port or GUI interface, where the user inputs or inserts the USB carrying the ciphered password and the encryption key, to access the security system.

A positioning device performs positioning to measure a position of a vehicle. The positioning device receives a signal transmitted from a GNSS satellite. The positioning device perform a positioning calculation using the signal. The positioning device communicates with a positioning server. The positioning device selects, as a system for the positioning, one of a first positioning system and a second positioning system.

A positioning device performs positioning to measure a position of a vehicle. The positioning device receives a signal transmitted from a GNSS satellite. The positioning device perform a positioning calculation using the signal. The positioning device communicates with a positioning server. The positioning device selects, as a system for the positioning, one of a first positioning system and a second positioning system.

A system for tagging and tracking assets anywhere in the world under any environmental condition. Geo-Referencing Identification (GRID) tag, GRID satellite (GRIDSAT) tag and associated cloud infrastructure and user interface meet the objectives of a robust global tagging and tracking system. The GRID tag can be used to identify pieces of equipment or storage containers for low-value or aggregate equipment. GRID tags communicate with each other using a mesh radio in each tag. The GRIDSAT tag consists of a satellite modem, global positioning system (GPS) receiver, and mesh radio and can be used by itself for high-value items, large shipping containers, or vehicles and vessels to track and locate them, or used in concert with GRID tags that communicate with each other and with the GRIDSAT tag by means of mesh radio.

A system for tagging and tracking assets anywhere in the world under any environmental condition. Geo-Referencing Identification (GRID) tag, GRID satellite (GRIDSAT) tag and associated cloud infrastructure and user interface meet the objectives of a robust global tagging and tracking system. The GRID tag can be used to identify pieces of equipment or storage containers for low-value or aggregate equipment. GRID tags communicate with each other using a mesh radio in each tag. The GRIDSAT tag consists of a satellite modem, global positioning system (GPS) receiver, and mesh radio and can be used by itself for high-value items, large shipping containers, or vehicles and vessels to track and locate them, or used in concert with GRID tags that communicate with each other and with the GRIDSAT tag by means of mesh radio.

Methods, systems, and apparatus for nanosatellite-based property monitoring are disclosed. A method includes receiving satellite data related to conditions of a property monitored by a monitoring system; determining, based on the satellite data, that the property is at risk from a threat; requesting, from a sensor of the monitoring system, sensor data related to the threat; receiving, from the sensor, the sensor data related to the threat; and based on analyzing the sensor data related to the threat, performing one or more monitoring system actions. The threat may include one of a weather hazard, a security hazard, or a property damage hazard. The monitoring system actions can include sending an instruction to adjust a sensor or component of the monitoring system and can include sending, to a user device, a notification that the property is at risk from the threat.

Methods, systems, and apparatus for nanosatellite-based property monitoring are disclosed. A method includes receiving satellite data related to conditions of a property monitored by a monitoring system; determining, based on the satellite data, that the property is at risk from a threat; requesting, from a sensor of the monitoring system, sensor data related to the threat; receiving, from the sensor, the sensor data related to the threat; and based on analyzing the sensor data related to the threat, performing one or more monitoring system actions. The threat may include one of a weather hazard, a security hazard, or a property damage hazard. The monitoring system actions can include sending an instruction to adjust a sensor or component of the monitoring system and can include sending, to a user device, a notification that the property is at risk from the threat.

Disclosed are apparatuses, systems, and methods for tracking patients that suffer from dementia. The disclosed apparatus is a wearable device capable of micro-tracking through Bluetooth Low Energy technology and capable of macro-tracking through GPS technology. The device may additionally include sensors to monitor other information such as the health of the patient or the patient's surrounding environment. The disclosed systems utilize the disclosed device in an overall system for tracking patients. These systems teach how the device interacts with the other components of the system (e.g., signal beacons, wireless transmitters, a central processing unit, mobile computing devices) to provide an integrated system to tracking the location and monitoring the well being of the patient. Finally, methods for tracking patients that use the disclosed devices and systems are disclosed.