A system, apparatus and method utilize a micro electronic device implanted in a person or group of persons, or wearable thereby, to manage a variety of activities. Such micro devices may also be embedded in, incorporated into, or otherwise attached to articles, devices, structures or things to track, manage or monitor such articles, devices, structures or things for geo-location or other tracking, monitoring or management services. The microelectronic devices may be used for geo-location services for agencies responsible for monitoring such person's whereabouts with respect to branches and agencies such judicial and law enforcement agencies. Lastly, the microelectronic devices may be implanted in or worn or carried by humans for using biometric sensors or transducers to authenticate and transmit vital signs and other health information to clinic or other facility personnel. The micro electronic devices may be communicatively connected to a mobile device and the micro electronic devices utilize features of the mobile device such as user interface services, programming services, data processing and storage services, telecommunication services, location services, sensor/transducer services, camera services, clock services, and/or temperature, weather and other services. This also enables tracking, monitoring, inventorying, and management of people and things for medical, legal, business, governmental and various other purposes.

A system, apparatus and method utilize a micro electronic device implanted in a person or group of persons, or wearable thereby, to manage a variety of activities. Such micro devices may also be embedded in, incorporated into, or otherwise attached to articles, devices, structures or things to track, manage or monitor such articles, devices, structures or things for geo-location or other tracking, monitoring or management services. The microelectronic devices may be used for geo-location services for agencies responsible for monitoring such person's whereabouts with respect to branches and agencies such judicial and law enforcement agencies. Lastly, the microelectronic devices may be implanted in or worn or carried by humans for using biometric sensors or transducers to authenticate and transmit vital signs and other health information to clinic or other facility personnel. The micro electronic devices may be communicatively connected to a mobile device and the micro electronic devices utilize features of the mobile device such as user interface services, programming services, data processing and storage services, telecommunication services, location services, sensor/transducer services, camera services, clock services, and/or temperature, weather and other services. This also enables tracking, monitoring, inventorying, and management of people and things for medical, legal, business, governmental and various other purposes.

A system, apparatus and method utilize a micro electronic device implanted in a person or group of persons, or wearable thereby, to manage a variety of activities. Such micro devices may also be embedded in, incorporated into, or otherwise attached to articles, devices, structures or things to track, manage or monitor such articles, devices, structures or things for geo-location or other tracking, monitoring or management services. The microelectronic devices may be used for geo-location services for agencies responsible for monitoring such person's whereabouts with respect to branches and agencies such judicial and law enforcement agencies. Lastly, the microelectronic devices may be implanted in or worn or carried by humans for using biometric sensors or transducers to authenticate and transmit vital signs and other health information to clinic or other facility personnel. The micro electronic devices may be communicatively connected to a mobile device and the micro electronic devices utilize features of the mobile device such as user interface services, programming services, data processing and storage services, telecommunication services, location services, sensor/transducer services, camera services, clock services, and/or temperature, weather and other services. This also enables tracking, monitoring, inventorying, and management of people and things for medical, legal, business, governmental and various other purposes.

A system for wirelessly transmitting power between a mobile device and a locking device is provided. In one embodiment power is wirelessly transmitted from the locking device to the mobile device. In another embodiment power is wirelessly transmitted from the mobile device to the locking device. In both embodiments power is transmitted wirelessly when the storage of power is below a critical level in one of the devices (e.g., the mobile device or the locking device). When the power is at a critical level the device (e.g., mobile device or locking device) may not be able to complete a function (e.g., transmit an access credential or actuate a mechanical or electronic lock). As such, wirelessly transmitting power between the mobile device and the locking device may enable the function to be completed.

An arrangement for unlocking a vehicle with a user equipment, including an electronic information reader module for reading authenticity information from a passive tag of the user equipment, said passive tag being powered by inducing a voltage therein, wherein the arrangement is configured for running a first authentication protocol via the reader module and the passive tag, a charging device for charging the user equipment, wherein the charging device is located in a closeable space of the vehicle being closeable by at least one lockable lid, wherein the at least one lockable lid is configured to be unlocked when the reader module and the passive tag are in communicative contact and when the arrangement has verified an authenticity of the passive tag, and wherein the arrangement is configured to run an additional authentication protocol with the user equipment for unlocking at least one door of the vehicle.

The present disclosure relates a set of electronic keys for an electronic lock. The set of electronic keys includes at least one passive electronic key having a passive digital key, and at least one active electronic key having an active digital key. Each of passive and active electronic keys includes a communication channel and an electronic key power supply port. The active electronic key includes electrical power source providing electrical power supply to the active electronic key itself, the electronic lock and the passive electronic key through the electronic lock to operate the electronic lock. When both active and passive electronic keys are inserted into respective electronic keyholes of the electronic lock, both active and passive digital keys are transmitted to the electronic lock, the electronic lock can be locked and unlocked only when both active and passive digital keys received match prestored active and passive digital keys respectively.

The GPS-Based Two-Step Authentication Engagement Mechanism is intended to allow for greater security to be achieved by using it. It combines two different technologies to create a better, more secure product. The first technology is GPS technology, which allows the mechanism to find its location and use it to perform its intended actions. The second technology is a device based on technology such as RFID technology, biometric technology, alphanumerical input technology, QR code technology, barcode reading technology, combination lock technology, lock-and-key technology, gyroscope or movement device technology, light spectrum sensor technology, sound sensor technology, pressure sensor technology, touch sensor technology, and proximity sensor technology. This mechanism is different than those that came before it in that it combines functions and technology that previously didn't appear together, and provides a more secure mechanism for users than either of these technologies could provide independently.

An arrangement for unlocking a vehicle with a user equipment, including an electronic information reader module for reading authenticity information from a passive tag of the user equipment, said passive tag being powered by inducing a voltage therein, wherein the arrangement is configured for running a first authentication protocol via the reader module and the passive tag, a charging device for charging the user equipment, wherein the charging device is located in a closeable space of the vehicle being closeable by at least one lockable lid, wherein the at least one lockable lid is configured to be unlocked when the reader module and the passive tag are in communicative contact and when the arrangement has verified an authenticity of the passive tag, and wherein the arrangement is configured to run an additional authentication protocol with the user equipment for unlocking at least one door of the vehicle.

A security lock, having a lock tongue, a key cylinder (20), and a key (30). The key cylinder (20) has a main body (21), a cover (22), and a connection assembly (40). The main body (21) has a channel (24). An electronic control assembly (50) and a mechanical control assembly (60) controlling the connection assembly (40) are provided within the main body (21). The key (30) has an elongate portion (31) and a grip portion (32). A power supply and a control chip are provided within the grip portion (32). The elongate portion (31) has bitting cuts (33) and a first contact member (34) connecting to the control chip. During an unlock operation, the key (30) is inserted into the channel (24), the first contact member (34) is communicatively connected to the electronic control assembly (50), and the bitting cuts (33) press against the mechanical control assembly (60).

The invention relates to a mixed photonic lock structure having intelligent identification and a method thereof. It comprises a mixed photonic key inserted into a mixed photonic lock body. A power supply unit of the mixed photonic lock body supplies the required power to the mixed photonic lock body and the mixed photonic key. An infrared (IR)-LED in the mixed photonic lock body emits a corresponding signal to an infrared photo detector (IR-PD) in the mixed photonic key. When the comparison conducted by a signal comparison circuit of the mixed photonic key matches, a RGB-LED emits a light signal password to a RGB PD of the mixed photonic lock body to control the lock to unlock after the comparison conducted by a signal comparison circuit of the mixed photonic lock body matches.