Abstract: This invention is smart clothing with stretch and/or bend sensors for measuring changes in a person's body configuration. This smart clothing has an elastic nonconductive layer onto which helical converging/diverging conductive pathways are printed using ink which is a mixture of elastic nonconductive material and conductive material. Changes in the transmission of electromagnetic energy through the pathway are analyzed to measure changes in the configuration of the person's body.
Abstract: This invention is a mobile wearable electromagnetic brain activity monitor comprising a frame worn on a person's head, electromagnetic energy sensors which collect data concerning the person's electromagnetic brain activity, and a control unit. The electromagnetic energy sensors can be electroencephalogram (EEG) electrodes. In an example, the frame can be circular. In an example, the frame can loop around the person's head from one ear to the other ear. In an example, the frame can be an eyewear frame which also includes light-transmitting optical members.
Abstract: This invention comprises EEG glasses (electroencephalographic eyewear) with a side section of an eyewear frame which spans forward and upward onto a portion of the person's forehead and then curves back downward to connect to the front section of the eyewear frame. These EEG glasses (electroencephalographic eyewear) further include a flexible protrusion which is attached to the side section and an electromagnetic energy sensor which collects data concerning electromagnetic brain activity, wherein the flexible protrusion holds the electromagnetic energy sensor.
Abstract: This invention is a wearable device for non-invasive glucose monitoring. It can be embodied in a finger ring, wrist band, wrist watch, or ear-worn device. In an example, it can include a circumferential biosensor array which spans at least 25% of the circumference of the device. A biosensor array can include an array of electromagnetic energy emitters and receivers and/or an array of light emitters and receivers.
Abstract: This invention is an integrated system for managing cardiac rhythm comprising a wearable device (such as a finger wring or wrist band) that measures body oxygen levels and an implanted cardiac rhythm management device (such as a pacemaker). Working together in an integrated system, a wearable device for measuring oxygen level in body extremities and an implanted device for cardiac rhythm management can help to prevent oxygen deficiencies in body extremities.
Abstract: This invention can be embodied in smart clothing for recognizing full-body human motion based on the pressure levels of a flowable substance within two different sets of flexible tubes or channels which are integrated into clothing (or a wearable accessory) and which span the same body joint. This technology can be used to create a wearable, mobile, reasonably-priced, and relatively-unobtrusive full-body motion-capture system which can be used in diverse environments. Compared to camera-based motion capture systems, this invention can be mobile and does not suffer from optical occlusion.
Type:
Grant
Filed:
August 20, 2014
Date of Patent:
March 7, 2017
Assignee:
Medibotics LLC
Inventors:
Robert A. Connor, Jedidiah Behymer, Matthew Hardyman, Matt Hericks, Garrison Hommer, Gus Lopez, Tyler Olson, John Smida, Alex Stein, Daniel Valencia, Eric Wong
Abstract: This invention comprises wearable computing devices and methods for the wrist and/or forearm including a bifurcating attachment member and/or proximal and distal display members. These wearable devices can provide relatively-large display areas without looking too clunky or being uncomfortable to wear. This invention also comprises methods for conserving energy and for modifying the communication interface between a human and a computer based on data from environmental sensors and/or body sensors.
Abstract: This invention is an article of clothing or clothing accessory for measuring body motion, posture, and/or configuration comprising sets of multiple flexible electromagnetic, light, and/or sound energy pathways, wherein each set longitudinally spans the same body joint in a selected configuration to increase measurement accuracy. Multiple flexible energy pathways longitudinally spanning the same body joint can transmit the same type or different types of energy (e.g. electromagnetic, light, or sound) and can transmit energy flows with the same flow parameters or different flow parameters.
Abstract: This invention is a wearable device for an arm with a plurality of close-fitting biometric sensors. These sensors can be spectroscopic sensors which project light onto an arm surface at different angles. Alternatively, these sensors can be electromagnetic energy sensors which measure tissue impedance, resistance, conductivity, or permittivity. These sensors can be on the circumference-center-facing wall of an elastic fluid, gel, or gas filled member. Data from these sensors can be used to measure a person's hydration levels, oxygen levels, glucose levels, or heart rate.
Abstract: This invention is a device and system for monitoring a person's food consumption comprising: a wearable sensor that automatically collects data to detect eating events; a smart food utensil, probe, or dish that collects data concerning the chemical composition of food which the person is prompted to use when an eating event is detected; and a data analysis component that analyzes chemical composition data to estimate the types and amounts of foods, ingredients, nutrients, and/or calories consumed by the person. In an example, the wearable sensor can be part of a smart watch or smart bracelet. In an example, the smart food utensil, probe, or dish can be a smart spoon with a chemical composition sensor. The integrated operation of the wearable sensor and the smart food utensil, probe, or dish disclosed in this invention offers accurate measurement of food consumption with low intrusion into the person's privacy.
Abstract: This invention is a device and system for monitoring a person's food consumption comprising: a wearable sensor that automatically collects data to detect probable eating events; a voluntary human-to-computer interface that is used by the person to enter food consumption data wherein the person is prompted to enter food consumption data when an eating event is detected by the wearable sensor; and a data analysis component that analyzes food consumption data to estimate the types and amounts of ingredients, nutrients, and/or calories that are consumed by the person. In an example, the wearable sensor can be part of a smart watch or smart bracelet. In an example, the voluntary human-to-computer interface can be part of a smart phone. The integrated operation of the wearable sensor and the voluntary human-to-computer interface disclosed in this invention offers accurate measurement of food consumption with low intrusion into the person's privacy.
Abstract: This invention is a wearable brain activity monitor with electromagnetic brain activity sensors which are held on a person's head by a partially-circumferential headband. The partially-circumferential headband curves around the lower-posterior surface of a person's head, from one ear to the other, and has forward ends which extend upward from the person's ears to the sides of the person's forehead.
Abstract: This invention is a wearable computer display device for the wrist and/or forearm with an upper distal-to-proximal extension and one or more forearm-extending computer displays. It has a gap or opening below the upper distal-to-proximal extension into which a garment sleeve can be inserted. This enables a person to the see the computer displays even when the person is wearing a long-sleeve garment.
Abstract: This invention is smart clothing (such as a shirt or pair of pants) for ambulatory motion capture comprising: an article of clothing; an electromagnetic energy emitter; an electromagnetic energy receiver; a helical stretching and/or bending electromagnetic energy pathway that spans a body joint, wherein motion of the body joint stretches and/or bends the pathway, and wherein stretching and/or bending of the pathway changes the flow of electromagnetic energy from the emitter to the receiver; and a data processor, wherein the data processor analyzes changes in the flow in order to measure motion of the body joint.
Abstract: This invention is finger ring with an electromagnetic energy sensor for monitoring a person's food consumption. In an example, this device can monitor a person's food consumption by measuring changes in the electromagnetic impedance, resistance, conductivity, or permittivity of finger tissue. In an example, this finger-worn device can comprise an electromagnetic resonator between an electromagnetic energy emitter and an electromagnetic energy receiver.
Abstract: This invention can be embodied in a wearable device or system for measuring finger motion and recognizing hand gestures comprising a distal loop which encircles the intermediate phalanx of a finger, a proximal loop which encircles the proximal phalanx of the finger, a joint-spanning strip which connects these two loops, and a bend sensor which is part of the joint-spanning strip. Changes in energy transmitted through, or generated by, the bend sensor are used to measure the motion and/or configuration of the proximal interphalangeal joint.
Abstract: This invention is a device and method for selectively and automatically reducing absorption of unhealthy food in a person's gastrointestinal tract, while allowing normal absorption of healthy food. In an example, such a device can comprise: a food-identifying sensor; an absorption-reducing substance; an implanted reservoir; and a release-control mechanism that selectively and automatically releases the substance into the person's gastrointestinal tract when the sensor detects that the person is consuming unhealthy food.
Abstract: This invention is a caloric intake measuring system comprising: a spectroscopic sensor that collects data concerning light that is absorbed by or reflected from food, wherein this food is to be consumed by a person, and wherein this data is used to estimate the composition of this food; and an imaging device that takes images of this food from different angles, wherein these images from different angles are used to estimate the quantity of this food. Information concerning the estimated composition of the food and information concerning the estimated quantity of the food can be combined to estimate the person's caloric intake.
Abstract: This invention is a wearable and mobile Brain Computer Interface (BCI) device which can be embodied in a head-worn undulating band. This band can have an ear-engaging segment, a side segment which spans the side part of a person's forehead and/or face, and a top segment which spans the top of the person's head. This band can encircle a person's head and include an ear prong. This band can include a movable loop which can be moved to span across a person's forehead.
Abstract: This invention is a sensor array which longitudinally spans a body joint in order to measure movement of that body joint. In an example, this sensor array can comprise four longitudinal sensors which span the body joint in four different radial quadrants, respectively. In an example, this sensor array can comprise six longitudinal sensors which span the body joint in six different radial hextants, respectively. In an example, this sensor array can further comprise a first accelerometer which is proximal to the body joint and a second accelerometer which is distal to the body joint.