Abstract: Embodiments of the present disclosure may include an implantable device (100) for in vivo measurement of metabolites, including a laser diode (110) or an IR diode (120) or optical waveguide as an external (outside body) light source with a laser diode (110) or an IR diode (120) for Raman spectroscopy unit (140). Embodiments may also include an optical filter (130) that filters the scattered light. Embodiments may also include a Raman spectroscopy unit (140) for detecting the metabolic profile of a subject. Embodiments may also include a Fabry-Pérot interferometer (150) with a spherical mirror, functioning as an etalon, for refining the detection of Raman scattering signals. Embodiments may also include a CMOS sensor (160) for capturing the refined Raman scattering signals. Embodiments may also include a piezo element (170a) or MEMS actuator (170b) for actuating the Fabry-Pérot interferometer (150). Embodiments may also include MCU (180) as a controller and a processing unit.

Abstract: An electric interface comprising a motherboard (100) containing at least two interface receptacles (101) located on the motherboard (100) and at least one module (200) with the interface plugs (203). Each of the interface receptacles (101) includes at least one ground line contact (GND) at least one power line contact (VCC), at least two signal line contacts (SIG1, SIG2). All ground line contacts (GND) are connected to each other. All power line contacts (VCC) are connected to each other. All contacts of the first signal line (SIG1) are connected to each other. All contacts of the second signal line (SIG2) are connected to each other. Each module (200) contains a microcontroller (201) and an unit (202). The microcontroller (201) is connected to at least four module lines (PROBE1, PROBE2, PROBE3, PROBE4).

Abstract: A method and apparatus may include accessing a plurality of different remote mobile devices. Different technical characteristics exist across the different remote mobile devices. The method may also include providing a first input. The first input is translated into a second input. The second input is received by at least one remote mobile device. The first input is translated into the second input based on the technical characteristics specific to the at least one remote mobile device. The method may also include determining a response to the second input by the at least one remote mobile device.