Systems, devices, methods, and kits for monitoring one or more physiologic and/or physical signals from a subject are disclosed. A system including patches and corresponding modules for wirelessly monitoring physiologic and/or physical signals is disclosed. A service system for managing the collection of physiologic data from a customer is disclosed. An isolating patch for providing a barrier between a handheld monitoring device with a plurality of contact pads and a subject is disclosed.

Systems, devices, methods, and kits for monitoring one or more physiologic and/or physical signals from a subject are disclosed. A system including patches and corresponding modules for wirelessly monitoring physiologic and/or physical signals is disclosed. A service system for managing the collection of physiologic data from a customer is disclosed. An isolating patch for providing a barrier between a handheld monitoring device with a plurality of contact pads and a subject is disclosed.

In the solution of the invention at least one an electrical response signal from a retina is acquired in a first temperature, at least one electrical response signal from the retina is acquired in at least a second temperature, the second temperature being different than the first temperature. At least the electrical response signal acquired in the second temperature is transformed with a plurality of different transformation parameter values resulting a plurality of different transformed signals. The different transformed signals of the electrical response signal in the second temperature are compared to the electrical response signal and/or the transformed signals acquired from the retina in the first temperature. The transformed electrical response signal which produces the highest similarity measure with the electrical response signal and/or transformed signal acquired from the retina in the first temperature is selected. The transformation parameter value or parameter values of the selected transformed signal is converted to a temperature, temperature difference estimate and/or temperature dependent indicator between the first temperature and the second temperature.

In the solution of the invention at least one an electrical response signal from a retina is acquired in a first temperature, at least one electrical response signal from the retina is acquired in at least a second temperature, the second temperature being different than the first temperature. At least the electrical response signal acquired in the second temperature is transformed with a plurality of different transformation parameter values resulting a plurality of different transformed signals. The different transformed signals of the electrical response signal in the second temperature are compared to the electrical response signal and/or the transformed signals acquired from the retina in the first temperature. The transformed electrical response signal which produces the highest similarity measure with the electrical response signal and/or transformed signal acquired from the retina in the first temperature is selected. The transformation parameter value or parameter values of the selected transformed signal is converted to a temperature, temperature difference estimate and/or temperature dependent indicator between the first temperature and the second temperature.

Provided are an electronic device, a signal processing method thereof, a biological signal measurement system, and a non-transitory computer readable recording medium. The electronic device, according to one embodiment of the present disclosure, comprises: a sensor for measuring a biological signal of a user; and a processor for determining the periodicity of the measured biological signal, and selectively compressing the measured biological signal according to the determined periodicity.

Provided are an electronic device, a signal processing method thereof, a biological signal measurement system, and a non-transitory computer readable recording medium. The electronic device, according to one embodiment of the present disclosure, comprises: a sensor for measuring a biological signal of a user; and a processor for determining the periodicity of the measured biological signal, and selectively compressing the measured biological signal according to the determined periodicity.

The present invention provides reagents and methods for modulating cone photoreceptor activity, and devices for assessment of cone photoreceptor activity.

The present invention provides reagents and methods for modulating cone photoreceptor activity, and devices for assessment of cone photoreceptor activity.

Apparatus for evoking and sensing ophthalmic physiological signals in an eye, the apparatus comprising: an elongated light pipe having a longitudinal axis, a distal end and a proximal end, the distal end terminating in a spheroidal recess; and an electrode having a distal end and a proximal end, the electrode being mounted to the elongated light pipe and extending proximally along the elongated light pipe so that the distal end of the electrode terminates at the spheroidal recess at the distal end of the elongated light pipe.

Apparatus for evoking and sensing ophthalmic physiological signals in an eye, the apparatus comprising: an elongated light pipe having a longitudinal axis, a distal end and a proximal end, the distal end terminating in a spheroidal recess; and an electrode having a distal end and a proximal end, the electrode being mounted to the elongated light pipe and extending proximally along the elongated light pipe so that the distal end of the electrode terminates at the spheroidal recess at the distal end of the elongated light pipe.