Our Unique technology allows for;
Common modular hardware
Common data acquisition
Common software
Common scale-able manufacturing
Current fiber optic sensing solutions have made it costly and difficult for organizations of all types to gather data. Data is disconnected, challenging to adopt, and complex to analyze. We are changing that.
Common modular hardware
Common data acquisition
Common software
Common scale-able manufacturing
Unique sensor packaging
Unique Machine Learning processes
Unique algorithms
Constellations of sensors
Simple integrations for any application
Smart equipment, devices, factories, cities, etc.
Multicore fiber technology leverages standard fiber manufacturing processes to create an optical fiber with multiple closely coupled cores to generate a high contrast interference pattern. This interference pattern is uniquely sensitive to external stimuli (temperature, curvature, strain) which can be easily decoupled through packaging to provide fast, accurate measurements in a small form factor sensing solution.
Multicore fiber technology leverages standard fiber manufacturing processes to create an optical fiber with multiple closely coupled cores to generate a high contrast interference pattern. This interference pattern is uniquely sensitive to external stimuli (temperature, curvature, strain) which can be easily decoupled through packaging to provide fast, accurate measurements in a small form factor sensing solution.
Bio-inspired artificial tastebud sensing technology utilizes a cluster of individually coated MCF-based sensing elements to generate a unique response in the presence of reactive components in a fluid stream. This response can be easily tuned to provide high contrast chemical speciation in both static and dynamic fluid environments.
Bio-inspired artificial tastebud sensing technology utilizes a cluster of individually coated MCF-based sensing elements to generate a unique response in the presence of reactive components in a fluid stream. This response can be easily tuned to provide high contrast chemical speciation in both static and dynamic fluid environments.
Bio-inspired artificial hair sensing technology utilizes MCF-based sensing elements to replicate biological hair sensing structures. These sensors can be easily attached to any structure and interact directly with flow environments to provide distributed aerodynamic force measuring capabilities.
Bio-inspired artificial hair sensing technology utilizes MCF-based sensing elements to replicate biological hair sensing structures. These sensors can be easily attached to any structure and interact directly with flow environments to provide distributed aerodynamic force measuring capabilities.
The principal part of the multicore sensing system, MCSE™, are uniquely fabricated for each type of sensor.
The principal part of the multicore sensing system, MCSE™, are uniquely fabricated for each type of sensor.
Multicore Sensors™ use MCSE™ with generalized packaging to enhance or inhibit sensitivities for each type of measurand.
Multicore Sensors™ use MCSE™ with generalized packaging to enhance or inhibit sensitivities for each type of measurand.
MCMD™ are opto-electronic devices used to read and interpret the changing signals received from Multicore Sensors™ and are loaded with generalized algorithms based on sensor type.
MCMD™ are opto-electronic devices used to read and interpret the changing signals received from Multicore Sensors™ and are loaded with generalized algorithms based on sensor type.
Working with CARB, Cummins, GM, Navistar, Caterpillar, Pela Motorsports, Real Street, Hartline Performance
Working with Pela, Hartline, Real Street
Working with Pela, Hartline, Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with Real Street
Working with USAF, Alicat, MVTS, Tao Systems
Working with USAF, Alicat, MVTS, Tao Systems