Nestwave SAS provides advanced, IoT geolocation solutions to IoT modem and DSP vendors. Nestwave's patented, hybrid-signal technology significantly improves localization accuracy in critical indoor and dense urban environments while greatly reducing power consumption and solution footprint compared to existing solutions.
NIL Technology ApS specializes in the optical design, prototyping, mastering, and mass production of optical components. The company provides nanostructured masters for various replication technologies, including nanoimprint, UV-replication, hot embossing, roll printing, and injection molding. Its product offerings support a wide range of applications, such as diffractive optics, microlens arrays, metalenses, optical diffusers, beam splitters, waveguides for augmented and mixed reality, wire grid polarizers, structured light systems, and anti-reflection coatings. NIL Technology also develops tailored solutions for industries including biotechnology, space, consumer product packaging, and renewable energy. Established in 2006, the company is headquartered in Kongens Lyngby, Denmark, with an additional branch located in Gothenburg, Sweden.
ONiO is a semiconductor company focused on creating self-powered, batteryless solutions for the Internet of Things (IoT) market. The company develops wireless microcontrollers that harness energy from their environment, allowing IoT devices to operate without traditional batteries. This innovation aims to facilitate a transition to a battery-free ecosystem, making health-related information more accessible and easier to understand. By reducing the barriers between people and healthcare technology, ONiO empowers individuals to take greater control of their health while minimizing distractions from other aspects of their lives.
Nestwave SAS provides advanced, IoT geolocation solutions to IoT modem and DSP vendors. Nestwave's patented, hybrid-signal technology significantly improves localization accuracy in critical indoor and dense urban environments while greatly reducing power consumption and solution footprint compared to existing solutions.