Provided herein is a dosimetry device for quantifying the dosage of radiation emitted from a radiation source, the device comprising: (i) a radiation dose indicator; (ii) an optical means to capture the color change; and (iii) a software means to compare the optical density of the dose indicator as compared to a predetermined calibration curve. Also provided herein is a method of quantifying the dosage of radiation emitted from the radiation source. Further provided herein is use of said dosimetry device in various medical, food and industrial applications.

A meter for measuring UV light having wavelengths, preferably between 205 nm and 237 nm. The meter includes at least one UV sensitive photo diode adapted for detecting the wavelengths of UV light between a lower end and an upper end; a first filter that blocks the UV light having wavelengths below 237 nm down to at least the lower end that the UV sensitive photo diode can detect; a second filter that blocks the UV light having wavelengths above 230 nm up to at least 205 nm; at least one amplifier for amplifying a signal from the UV sensitive photo diode; an analog to digital converter; a microprocessor; a battery in electrical communication with the microprocessor. The microprocessor preferably being in communication with the amplifier and the analog to digital converter. The microprocessor provides a result for the UV light that the UV sensitive photo diode is exposed to.

Provided herein is a dosimetry device for quantifying the dosage of radiation emitted from a radiation source, the device comprising: (i) a radiation dose indicator; (ii) an optical means to capture the color change; and (iii) a software means to compare the optical density of the dose indicator as compared to a predetermined calibration curve. Also provided herein is a method of quantifying the dosage of radiation emitted from the radiation source. Further provided herein is use of said dosimetry device in various medical, food and industrial applications.

A wearable device for measuring the light conditions of a subject includes a light sensor for measuring said light conditions, and a light guide for collecting incoming light and directing it to said light sensor. A software application is also provided executable on a remote device and configured for receiving data from the wearable device via a receiver on the remote device, processing the data by means of the remote device to provide data representing the light exposure of the subject wearing the wearable device, and displaying at least a part of the data on a screen of the remote device.

An electronic device may have an ambient light sensor for gathering ambient light measurements. The ambient light sensor may include multiple channels for measuring different wavelengths of ambient light. An additional, modified, channel may be formed in the ambient light sensor to measure radio-frequency signals that may interfere with the ambient light measurements due to electromagnetic interference. Alternatively, circuitry separate from the ambient light sensor, such as an antenna, may measure the radio-frequency signals. If the radio-frequency signals exceed a threshold, the ambient light sensor measurements taken in the presence of the radio-frequency signals may be discarded or corrected. If the radio-frequency signals do not exceed a threshold, the ambient light sensor measurements may be kept. Therefore, the ambient light measurements that are kept and relied upon by the electronic device may be free from electromagnetic interference.

The present application discloses a UV radiation monitoring apparatus, method, and system. The monitoring apparatus includes a case, an authenticator disposed on the case and configured to identify a user, a controller in the case coupled to the authenticator to enable a first mode for an authenticated user, a detector on the case coupled to the controller and configured to measure an intensity of ultraviolet radiation and generate ultraviolet index (UVI) value at the present time, a memory coupled to the controller and configured to store the UVI values over an exposure time added into historical UVI data for the authenticated user, and a display unit to display the UVI value at the present time and the personal health instructions on UV protection for the authenticated user. The monitoring apparatus further is configured to be paired with a mobile terminal for providing updated personal health instructions.

The present application discloses a UV radiation monitoring apparatus, method, and system. The monitoring apparatus includes a case, an authenticator disposed on the case and configured to identify a user, a controller in the case coupled to the authenticator to enable a first mode for an authenticated user, a detector on the case coupled to the controller and configured to measure an intensity of ultraviolet radiation and generate ultraviolet index (UVI) value at the present time, a memory coupled to the controller and configured to store the UVI values over an exposure time added into historical UVI data for the authenticated user, and a display unit to display the UVI value at the present time and the personal health instructions on UV protection for the authenticated user. The monitoring apparatus further is configured to be paired with a mobile terminal for providing updated personal health instructions.

The present application discloses a UV radiation monitoring apparatus, method, and system. The monitoring apparatus includes a case, an authenticator disposed on the case and configured to identify a user, a controller in the case coupled to the authenticator to enable a first mode for an authenticated user, a detector on the case coupled to the controller and configured to measure an intensity of ultraviolet radiation and generate ultraviolet index (UVI) value at the present time, a memory coupled to the controller and configured to store the UVI values over an exposure time added into historical UVI data for the authenticated user, and a display unit to display the UVI value at the present time and the personal health instructions on UV protection for the authenticated user. The monitoring apparatus further is configured to be paired with a mobile terminal for providing updated personal health instructions.

The present application discloses a UV radiation monitoring apparatus, method, and system. The monitoring apparatus includes a case, an authenticator disposed on the case and configured to identify a user, a controller in the case coupled to the authenticator to enable a first mode for an authenticated user, a detector on the case coupled to the controller and configured to measure an intensity of ultraviolet radiation and generate ultraviolet index (UVI) value at the present time, a memory coupled to the controller and configured to store the UVI values over an exposure time added into historical UVI data for the authenticated user, and a display unit to display the UVI value at the present time and the personal health instructions on UV protection for the authenticated user. The monitoring apparatus further is configured to be paired with a mobile terminal for providing updated personal health instructions.

The invention relates to a system (100) for sensing ambient light intensity, comprising a wearable device (10) with at least one pair of light receivers (20, 22, 23, 24, 25) arranged in two different positions for receiving light from the two different directions, and a control unit (110) configured to determine a directional illuminance based on light intensities of the light received by the pair of light receivers (20, 22, 23, 24, 25).