Abstract: A wearable device is provided with a wearable device structure. The wearable device has a first end and a second end. A plurality of magnets is positioned at the first and second ends that provide for coupling of the first end to the second end of the wearable device. At least a portion of the magnets are distanced from a first or second exterior surface of the wearable device structure in a range of 0.1 mm to 2.0 mm. ID circuitry is provided at a surface or an interior of the wearable device.

Abstract: A wearable device is provided with a wearable device structure with first end and second ends. A plurality of magnets is positioned at the first and second ends that provide for coupling of the first end to the second end of the wearable device structure. At least a portion of magnets at the first end overlap with magnets at the second end. ID circuitry is at a surface or an interior of the wearable device structure.

Abstract: A system is provided for using telemetry data based on user habit information or user monitoring. A monitoring device has one or more sensors that detect or measure user information selected from of at least one of, a user's activities, behaviors and habit information, and a user's health. The monitoring device includes ID circuitry with an ID storage that contains a unique user ID, a communication system which reads and transmits the unique user ID from the ID storage, a power source and a pathway system. A telemetry system with a database receives the user information from the telemetry device. One or more analysis tools are at the telemetry system that analyze the user information and produce analysis information that is sent to the monitoring device.

Abstract: Apparatuses and methods for measuring audience response to a presentation such as an advertisement. Software is trained using a feedback loop to correlate biometric data, such as eye tracking, facial recognition, or pupil dilation, with emotion, attention, memory, and/or meaning remembered by a viewer as measured by methods related to the Picture Sorts technique. The trained software then enables a device that uses biometric measurement to detect and measure such qualities in a viewer as the presentation is being viewed. In this way, unlike existing systems, the attention, memory and both primary and compound emotions of the viewer can be measured, enabling key moments of the presentation to be detected.

Abstract: A system is disclosed that uses telemetry data based on a user habit information or user monitoring. A user monitoring device has a unique user ID. The monitoring device acquires user information selected from of at least one of, a user's activities, behaviors and habit information, and user monitoring. ID circuitry is at the user monitoring device. The ID circuitry includes ID storage, a communication system that reads and transmits the unique ID from ID storage, a power source and a pathway system to route signals through the circuitry. A telemetry system is in communication with the user monitoring device. The telemetry system includes a database of user ID's. The telemetry system is in communication with the user monitoring device. An activity manager is provided is used with the other elements to manage lifestyle activities of the user.

Abstract: A mobile device is provided that obtains monitored information about an individual. A display is coupled to a housing. A memory is coupled to a memory and one or more processing units (CPU's), a peripherals interface, a Network Systems circuitry and an input/output (I/O) subsystems. A system is included with one or more sensors that detects or measure an individual's activities.

Abstract: A wearable monitoring device, worn by a user, has one or more sensors which acquire at least one of a user's activities, behaviors and habit information, an antenna and a unique user ID. The monitoring device includes a wireless user interface with a one or more input selection elements, which are accessible by the user to control at least a portion of one or more controllable devices housed in a building. One or more controllable systems or devices are at the building. At least a first portion of the one or more controllable systems or devices have an interface with a receiver in communication with the monitoring device that enables the monitoring device to communicate with the receiver.

Abstract: A system for is provided for using telemetry data based on patient habit information or patient monitoring. One or more patient monitoring devices has a unique patient ID. The one or more monitoring devices acquire patient information selected from of at least one of, a patient's activities, behaviors and habit information, and patient monitoring. ID circuitry is at the patient monitoring device. The ID circuitry includes ID storage, a communication system that reads and transmits the unique ID from an ID storage, a power source and a pathway system to route signals through the circuitry. An alarm is at the patient monitoring device that provides an alert only when the patient is in a wake-state. A telemetry system is in communication with the patient monitoring device. The telemetry system includes a database of patient ID's.

Abstract: A system for is provided for using telemetry data based on patient habit information or patient monitoring. One or more patient monitoring devices has a unique patient ID. The one or more monitoring devices acquire patient information selected from of at least one of, a patient's activities, behaviors and habit information, and patient monitoring. ID circuitry is at the patient monitoring device. The ID circuitry includes ID storage, a communication system that reads and transmits the unique ID from an ID storage, a power source and a pathway system to route signals through the circuitry. An alarm is at the patient monitoring device that provides an alert only when the patient is in a wake-state. A telemetry system is in communication with the patient monitoring device. The telemetry system includes a database of patient ID's.

Abstract: A system is provided for obtaining monitored information about an individual and create life activities data. A monitoring device has that detect or measure individual information selected from of at least one of, an individual's activities, behaviors and habit information, and an individual's health. The monitoring device includes ID circuitry with an ID storage that contains a unique individual ID, a communication system which reads and transmits the unique individual ID from the ID storage, a power source and a pathway system. A telemetry system includes a database that receives the individual information from the telemetry device. One or more analysis tools at the telemetry system analyze the individual information and create life activities data.

Abstract: A user monitoring device has one or more monitoring sensors and a unique user ID. The one or more sensors acquire user information selected from of at least one of, a user's activities, behaviors and habit information, and user monitoring. ID circuitry is at the user monitoring device. The ID circuitry includes ID storage, a communication system that reads and transmits the unique ID from an ID storage, a power source and a pathway system to route signals through the circuitry. The monitoring device is configured to be in communication with a telemetry system. The telemetry system includes a database of user ID's. The telemetry analyzes telemetry data based on at least one of, user's activities, behaviors and habit information. The telemetry system in operation is in communication with and sends a notification to an emergency response team or system when a monitored parameter is of a certain value.

Abstract: A method is provided for using telemetry data based on user habit information or user monitoring. One or more sensors of a monitoring device detects or measures user information selected from of at least one of, a user's activities, behaviors and habit information, and a user's health. The user information is received at a telemetry system with a database. One or more analysis tools at the telemetry system are used for the analysis. Analysis information is produced that is sent to the monitoring device.

Abstract: A wearable device is provided with a wearable device structure. The wearable device has a first end and a second end, each with a plurality of magnets. The first and second ends are coupled by overlapping at least a portion of the first end magnets to at least a portion of the second end magnets. The magnets operate and the magnets operate at a selectable strength of from N30 to N52. ID circuitry is provided at a surface or an interior of the wearable device.

Abstract: A system sends firmware updates from a telemetry system to a monitoring device. One or more sensors are coupled to a monitoring device that has a unique user ID. The sensors acquire user information selected from of at least one of, a user's activities, behaviors and habit information. ID circuitry at the monitoring device includes ID storage, a communication system that reads and transmits the unique ID from an ID storage, a power source and a pathway system to route signals through the circuitry and elements to enable installation of firmware updates. A telemetry system is in communication with the one or more sensors and includes a database of user ID's. The telemetry system analyzes telemetry data from the monitoring device based on at least one of, user's activities, behaviors and habit information and creating personalized information about the user.

Abstract: A monitoring device, with one or more sensors detects or measures individual information selected from of at least one of, an individual's activities, behaviors and habit information, and an individual's health. The monitoring device includes ID circuitry with an ID storage that contains a unique individual ID, a communication system which reads and transmits the unique individual ID from the ID storage, a power source and a pathway system. A telemetry system is in communication with the monitoring device. An activity manager is in communication with the monitoring device. The activity manager provides information analysis of the individual information received from the monitoring device, the individual information selected from at least one of, individual physiological information, information that is indicative of the individual's activities, data indicative of one or more contextual parameters of the individual and monitoring a degree to which an individual has followed a routine.

Abstract: A method is provided for obtaining monitored information about an individual and provide the individual with feedback. A monitoring device with one or more sensors is used to measure or detect individual information selected from of at least one of, an individual's activities, behaviors and habit information, and an individual's health. The monitoring device has ID circuitry with an ID storage that contains a unique individual ID, a communication system which reads and transmits the unique individual ID from the ID storage, a power source and a pathway system. The monitoring device communicates with a telemetry system. The telemetry system has a database that includes base individual information selected from at least one of, individual physiological information, information that is indicative of the individual's activities, data indicative of one or more contextual parameters of the individual and information regarding a degree to which an individual has followed a routine.

Abstract: A method is provided for utilizing a personal monitoring device or other personal logging device, to assist an individual in a lifestyle control program. The method includes storing lifestyle data from a statistically large group of persons in a database, collecting, in a personal logging device, corresponding personal lifestyle data; feeding the data from the personal logging device to the database; performing a statistical analysis of the collected lifestyle data, and producing an output and providing feedback to the user based on correlations.

Abstract: A system provides assignment of a wearable device user identifier to a wearable device user. A wearable device has one or more sensors that detect or measure wearable device user information selected from of at least one of, a wearable device user's activities, behaviors and habit information, and a wearable device user's health. The wearable device includes a communication system, and a pathway system. A telemetry system has a database of wearable device user profiles. The telemetry system includes a processor and a wearable device user database. The processor has at least one of, access to the wearable device user database, at least partially creates the wearable device user database and at least partially determines a wearable device user profile. A wearable device user identifier of a wearable device user is assigned to the wearable device user before or after the wearable device user receives the wearable device.

Abstract: One or more sensors are coupled to a monitoring device which has a unique user ID. The one or more sensors acquire user information selected from of at least one of, a user's activities, behaviors and habit information. ID circuitry including ID storage, a communication system that reads and transmits the unique ID from an ID storage, a power source and a pathway system to route signals through the circuitry is at the monitoring device. A multi-protocol wireless controller coupled to one or more wireless interfaces is at the monitoring device and characterizes available networks to determine current network information. A wireless connectivity assistant is at the monitoring device and selects one of the available networks based on the current network information and at least one of user preferences, application requirements and system information. A telemetry system is in communication with the monitoring device.

Abstract: A user monitoring device has one or more monitoring sensors and a unique user ID. The one or more sensors acquire user information selected from of at least one of, a user's activities, behaviors and habit information, and user monitoring. ID circuitry is at the user monitoring device. The ID circuitry includes ID storage, a communication system that reads and transmits the unique ID from an ID storage, a power source and a pathway system to route signals through the circuitry. The monitoring device is configured to be in communication with a telemetry system. The telemetry system includes a database of user ID's. The telemetry analyzes telemetry data based on at least one of, user's activities, behaviors and habit information. The telemetry system in operation is in communication with and sends a notification to an emergency response team or system when a monitored parameter is of a certain value.