A processor implemented method of detecting a concentration of plurality of chemical residue in an agricultural produce is provided. The method include (a) receiving, by a hyper spectral device, a data set associated with one or more reflectance measurements of the agricultural produce; (b) determining, data associated with a plurality of bands; (c) dynamically reiterating, the steps (a) and (b) at predetermined time interval to obtain a trained dataset; (d) determining, relevant wavelengths among the selected trained data sets based on a feature selection technique to form an array of emitters; (e) calibrating, by the identified array of emitters, to emit light on the detecting region of one or more sample of the agricultural produce to obtain data associated with reflectance and transmittance; and (f) calculating, a calibration index with a de-multiplication flag to detect presence or absence of the plurality of chemical residue in the agricultural produce.

A portable incubator system integrated to a mobile phone providing a real-time tracking of samples and data flow is provided. The portable incubator system allowing cells to be cultured, reproduced and characterized in real-time without a need for a commercial incubator and a microscope-camera system installed within the portable incubator system.

An optical sensor system may include a light source. The optical sensor system may include a concentrator component proximate to the light source and configured to concentrate light from the light source with respect to a measurement target. The optical sensor system may include a collection component that includes an array of at least two components configured to receive light reflected or transmitted from the measurement target. The optical sensor system may include may a sensor. The optical sensor system may include a filter provided between the collection component and the sensor.

Provided are processes, methods, kits, devices and software for testing and detecting proteins such as antigens, cytokines or antibodies, particles or cells in specimens of or samples from human or animals; and in alternative embodiments the protein are induced by or derived from viruses, bacteria, an immune system, a cancer cell or any cell which can cause a disease, infection or condition such as a COVID-19 infection. Provided are portable imaging systems comprising flat static surfaces or slides, wherein the flat static surfaces or slides can be fabricated as printed microarrays, or biochips that can support protein or bioparticle precipitates. Provided are portable imaging systems comprising imaging systems with light sheet illumination to image two dimensional (2D) planes in liquids to detect proteins, bioparticles, cells, and organisms. Portable imaging systems provided herein can be used for point-of-care diagnosis, immunity analysis, epidemiological surveillance, and therapeutics and vaccine development.

A system for analysis of a sample at a substrate comprises: a light source to generate first light; and a spatial light modulator to form second light from the first light, wherein the substrate includes at least one sensor to detect an emission emitted based on the second light, wherein at the substrate the second light forms a shape selected based on the at least one sensor, wherein the second light illuminates an area of the substrate corresponding to the shape.

An instrument for processing and/or measuring a biological process contains a sample processing system, an excitation source, an excitation optical system, an optical sensor, and an emission optical system. The sample processing system is configured to retain a first sample holder and a second sample holder, wherein the number of sample cells is different for each sample holder or a characteristic dimension for the first sample cells is different from that of the second sample holder. The instrument also includes an excitation source temperature controller comprising a temperature sensor that is coupled to the excitation source. The temperature controller is configured to produce a first target temperature when the first sample holder is retained by the instrument and to produce a second target temperature when the second sample holder is retained by the instrument.

Disclosed herein is an electronic apparatus and method capable of identifying a state of an object. The electronic apparatus includes a light-emitting diode array configured to transmit light beams having different wavelengths, a photodiode array configured to receive the light beams, a display, and a processor configured to control the light-emitting diode array to transmit the light beams having the different wavelengths toward an object, identify a state of the object based on intensities reflected on the object according to the light beams having the different wavelengths that are received by the photodiode array, and display information about the state of the object on the display.

An embodiment of a cell-oxygenation monitoring system includes a probe and a base. The probe is connectable to the base, configured to direct electromagnetic energy having wavelengths in an approximate range of 400 nm-900 nm into a body having at least one cell, and configured to receive a portion of the electromagnetic energy redirected by the body during a time. The base includes a generator configured to generate the electromagnetic energy during the time, and a computing circuit configured to determine, in response to the portion of redirected electromagnetic energy, a level of oxygenation of one or more of the at least one cell.

An instrument for processing and/or measuring a biological process comprises a sample processing system and an excitation source exhibiting a spectral function of output power or intensity verses wavelength of output power or intensity. The spectral function has a minima wavelength corresponding to a local minima value of the output power or intensity; a first maxima wavelength corresponding to a first local maxima of output power or intensity, the output power or intensity at the first local maxima being greater than the output power or intensity at any wavelength less than the minima wavelength; a second maxima wavelength corresponding to a second local maxima of output power or intensity, the output power or intensity at the second local maxima being greater than the output at any wavelength greater than the minima wavelength; the minima wavelength is between the first maxima wavelength and the second maxima wavelength.

The contamination sanitation inspection system (CSIS) allows a user to capture an image of a large scene (such as a food processing line, a food service facility, a food products storage area, or a plant production area/facility) and identify contamination within the scene and preferably represent the contamination on a spatially accurate map (or floorplan) so that contamination within the inspection map area is clearly identified and recorded for subsequent treatment. In an alternative embodiment, the CSIS also includes a decontamination system to sanitize any identified contamination.