A method for identifying human joint characteristics, the method including the steps of: using a mobile imaging device, taking at least one image of the joint, and then identifying a joint pain location by identifying three different locations in the image near the joint, so that a center point between the locations can be triangulated.

An indication that an occupant has entered a vehicle is detected on a computing device. The occupant is identified based on the indication that the occupant has entered the vehicle. A health record that is associated with the occupant is accessed by the computing device. The computing device enables the accessed health record associated with the occupant to be available from a secure digital storage container. The health record associated with the occupant is provided to a second computing device registered to a first responder from the secure digital storage container based on detecting an indication that the vehicle has had a collision.

The present invention contemplates a method of activating a wearable device, the method comprising the step of detecting an electromagnetic field generated by a Near Field Communication (“NFC”) transmitter within a detection range of an electromagnetic field detection circuit of the wearable device. In response to detecting the electromagnetic signal, the method further contemplates emitting a trigger signal to trigger a flip-flop, wherein triggering the flip-flop causes a switching transistor to switch between at least one of an activated state and a deactivated state, and wherein causing the switching transistor to switch between at least one of the activated state and the deactivated state, switches a connection between an electronic circuit and a power supply between at least one of a on state and an off state.

The present invention contemplates a method of activating a wearable device, the method comprising the step of detecting an electromagnetic field generated by a Near Field Communication (“NFC”) transmitter within a detection range of an electromagnetic field detection circuit of the wearable device. In response to detecting the electromagnetic signal, the method further contemplates emitting a trigger signal to trigger a flip-flop, wherein triggering the flip-flop causes a switching transistor to switch between at least one of an activated state and a deactivated state, and wherein causing the switching transistor to switch between at least one of the activated state and the deactivated state, switches a connection between an electronic circuit and a power supply between at least one of a on state and an off state.

A measurement instrument includes: a processor configured to: receive registration of user identification information and a plurality of transmission destinations; and transmit a result of measurement that concerns health management measured by the measurement instrument to each of the transmission destinations registered in association with the registered user identification information.

The present disclosure include devices, systems, and methods for location-based incontinence detection and monitoring including a communication device receiving incontinence event indicators occurrence and location indicators.

Systems and methods for epidemic/pandemic management by creating a network of user devices wirelessly connected to a central server or servers, the devices having location/proximity capability. The central server propagates crowdsourced information about individual risks of exposure and infectiousness across a dynamic contact network, where the risk assessments are determined by the server by data assimilation methods with corrections made by updating previous risk network models and re-evolving them.

Systems and methods for epidemic/pandemic management by creating a network of user devices wirelessly connected to a central server or servers, the devices having location/proximity capability. The central server propagates crowdsourced information about individual risks of exposure and infectiousness across a dynamic contact network, where the risk assessments are determined by the server by data assimilation methods with corrections made by updating previous risk network models and re-evolving them.

Systems and methods realize the benefit of portable storage devices by taking advantage of PCs including an optical disk drive, optical disks, such as a CD or a DVD, and the Internet. An individual patient provides personal data to a healthcare service center. The healthcare service center can then create a portable optical disk for the patient to carry. The personal data written onto the portable optical disk is stored on a database management server database and is readable and updateable by the individual patient using his/her PC with an optical disk drive and connected to the Internet. The individual patient can choose to update his/her personal data on the portable optical disk and can receive a new portable optical disk that includes the update. The new portable optical disk containing the latest update is created and delivered to the patient by the database management server.

An identifying and monitoring system to be worn at all times that includes a bracelet that can locate lost or missing children, adults, and pets. The bracelet provides emergency personnel with pertinent identifying information including medical history and family contacts. The system includes GPS capabilities and the use of the internet and a web page to upload and download information per each individual bracelet. The bracelet also incorporates a unique locking system that when disengaged from a wearer's wrist an emergency signal and location information is immediately sent to emergency responders.