technologies available for licensing

Rensselaer Polytechnic Institute has a variety of technologies ranging from chemicals to lighting systems to algorithms and everything in-between. Rensselaer’s technologies can help you start a company or be a great addition to your current technology portfolio. To see what technologies are currently available for licensing at Rensselaer, please use the search below. If you have a technology need that Rensselaer’s technologies don’t currently solve, please reach out to IPO to discuss more your needs.

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This invention is directed to a self-commissioning photosensor and controller device that turns electric lights on and off using a microprocessor connected to a luminaire. The processor receives signals from a self-commissioned mountable photosensor. The photosensor uses a unique algorithm to control illumination at the task pane making the photosensor more accurate than…
Most lighting level measurements are characterized in terms of illuminance.While this is useful for indoor applications, illuminance levels are not always as useful for outdoor lighting efficiency characterization.Lighting designers and researchers need a method to accurately characterize their outdoor or low level lighting applications. This invention is directed to a system…
Gaze determines a subjects current line of sight or fixation point. The direction of the eye gaze can express the interests of the subject and is a potential porthole into the current cognitive processes. Existing techniques for eye gaze tracking can be divided into video-based techniques and non-video-based techniques. However, non-video-based techniques are intrusive and…
Semiconductor nanoparticles (also called quantum dots or nanocrystals) are generally used a lasing medium in a laser, as fluorescent tags in biological testing methods, and as electronics devices. However, these nanoparticles traditionally have high production costs and the methods used for synthesis are extremely toxic at high temperatures, posing safety risks during mass…
The continued development of optical communications requires fast information processing. Therefore, ultrafast, all-optical systems and switches for basic processing at both ends of an optical transmission line are replacing electronic systems. However, there are speed and fabrication limits on present all-optical switches imposed by the properties of the materials presently…
Atomic layer deposition (ALD) is an ideal technique for fabricating thin layers requiring precision-controlled nanoscale film thickness. It is a type of chemical vapor deposition (CVD), wherein a film is built up through deposition of multiple ultra thin layers of atomic level controllability, with the thickness of the ultimate film being determined by the number of layers…
The current high-growth nature of digital communications demands higher speed serial communication circuits. Present day technologies barely manage to keep up with the present need to communicate at high speeds (e.g., gigabit, terabit, and higher transmission speeds). New techniques are needed to ensure that methods for serial communication can continue to expand and grow. A…
Most forms of communication rely on transmission of groups of discrete elements arranged in a manner that is understood by both the transmitting and a receiving party. Accurate communication between the transmitter and a receiver depends on the message formed by the groups of discrete elements, or symbols, being transmitted uncorrupted and intact between the two parties.…
As a greater number of people begin to access the Internet through high speed connections, the content offered is expanding. One method of broadcasting video and audio streams over the Internet is Multicasting. However, as use of multitask protocols and acknowledgement signals for each packet sent increases, so does congestion over the internet. Therefore, there exists a need…
The current high-growth nature of digital communications demands higher speed serial communication circuits. Present day technologies barely manage to keep up with the present need to communicate at high speeds, e.g. gigabit, terabit, and higher transmission speeds. Multiplexers are often used but have different input and output rates, which can cause jitter in the output…