OEM and custom engineering solutions that help
reduce time-to-market for new clinical ultrasound products and applications.
Specializing in enabling quantitative AI-based ultrasound
applications that can recognize, locate and measure things
in the body in real time.
reduce time-to-market for new clinical ultrasound products and applications.
Specializing in enabling quantitative AI-based ultrasound
applications that can recognize, locate and measure things
in the body in real time.
Featuring:
- Powered by Cephasonics - Next generation clinical applications of AI-based real-time ultrasound that can recognize, locate and measure things in the body in real time.
- Tissue Differentiation - the first 510K cleared ultrasound technology of its kind specifically designed for spine surgery powered by Cephasonics systems and utilizes Cephasonics developed AI to differentiate muscle, nerve, bone and blood vessels.
- Exciting new ultrasound technology and products
- Itasca ultrasound architecture designed to provide exceptional high-performance ultrasound capabilities to address new areas of clinical imaging and data acquisition/processing
- Echo-64 - a new modular ultrasound kit designed for developing custom ultrasound applications and systems
- Ontario Ultrasound Cart - complete integrated ultrasound systems with computer, monitor and ultrasound engine in a sleek medical cart designed for clinical applications.
- Cicada II - the next generation of OEM ultrasound systems designed to power innovative ultrasound applications
- The Latest Version of CuSDK - open software development for ultrasound AI applications
- Cimarron CMUT connectivity kit - a complete direct connection kit for Philips CMUT devices to Cephasonics ultrasound systems
- Strategic Partners
- Philips MEMs Foundry - working with Cephasonics together to provide an integrated evaluation and development program to create innovative CMUT ultrasound devices and applications. C
- Sonosine - Integrating breakthrough EMA technology with Cephasonics ultrasound to dramatically enhance data and image quality. (EMA) imaging technology, uses radio signals as well as ultrasound, revealing the tissue types in areas of concern in a way that ultrasound alone cannot.