Abstract: A method for making a phase change composite (PCC) for a battery pack of a plurality of electrochemical cells. The method includes impregnating a matrix material with a phase change material, and fragmenting the matrix material before or after the impregnating. The fragmented and impregnated matrix material are shaped into a composite such as by extraction, pressing, or other molding technique. Additional PCC shapes are provided by this invention, such as individual spacers for placement between individual battery cells, or rows of cells.

Abstract: A method for making a phase change composite (PCC) for a battery pack of a plurality of electrochemical cells. The method includes impregnating a matrix material with a phase change material, and fragmenting the matrix material before or after the impregnating. The fragmented and impregnated matrix material are shaped into a composite such as by extraction, pressing, or other molding technique. Additional PCC shapes are provided by this invention, such as individual spacers for placement between individual battery cells, or rows of cells.

Abstract: Systems and methods to secure data transmission between IoT sensors and their base station that may include use of a sensor system to obtain sensor data and generate per-packet keys to obtain corresponding values from a multi-dimensional cubic array. The sensor data may be encrypted based on the multi-dimensional cubic array to generate an encrypted data value which is transmitted to a wireless access point then decrypted using the plurality of per-packet keys.

Abstract: Systems and methods are provided for inserting an endoscope through an anatomical cavity to a target site. A speaker is positioned externally proximate to a patient and the endoscope is inserted into the anatomical cavity. A signal is received from at least one sensor positioned near the distal end of the endoscope. The signal is indicative of vibrations induced in internal cavity tissue by the externally positioned speaker. A first anatomical structure in contact with the distal end of the endoscope is identified based on the signal indicative of vibrations induced in the internal cavity tissue by the externally positioned speaker. As the distal end of the endoscope moves from the first anatomical structure into contact with other anatomical structures along a path to the target site, the received signal indicative of induced vibrations changes correspondingly and is used to guide the endoscope to the target site.

Abstract: Systems and methods are provided for inserting an endoscope through an anatomical cavity to a target site. A speaker is positioned externally proximate to a patient and the endoscope is inserted into the anatomical cavity. A signal is received from at least one sensor positioned near the distal end of the endoscope. The signal is indicative of vibrations induced in internal cavity tissue by the externally positioned speaker. A first anatomical structure in contact with the distal end of the endoscope is identified based on the signal indicative of vibrations induced in the internal cavity tissue by the externally positioned speaker. As the distal end of the endoscope moves from the first anatomical structure into contact with other anatomical structures along a path to the target site, the received signal indicative of induced vibrations changes correspondingly and is used to guide the endoscope to the target site.