We can offer

• licensing and other forms of cooperation concerning the developed products
• consultancy in 3D modelling and data analysis
• longer term research cooperation in modelling, computer vision, real-time equipment control and robotics

Our 3D visualisation services include

3D geometric modelling

We provide 3D mathematical modelling for a wide range of objects and applications such as verification of shape geometry in industrial inspection and processes, medical prosthetics and rehabilitation, inputting objects into a CAD system, multimedia graphics and animation, archaeology and archiving, bacteria characterisation and many others.

We provide algorithms for 3D image registration and fusion and our renowned algorithms based on curvature optimality criteria provide optimal models to reconstruct objects from scattered 3D data.

Innovation 3D scanning methods

We provide single-shot fast area scanning of target objects. Using unique, patented, uncoded multiple stripe technology we provide a range of services for surface acquisition and reconstruction, 3D model building and data manipulation.

Our unique Multiple Stripe Scanning Method provides instant, accurate computer models of target objects. The multiple stripe method is distinct from conventional Single Stripe Scanning Methods, which project only a single vertical stripe of laser light at a time onto the target object. Fast acquisition by the multiple-stripe method means that slow-moving objects can be captured or a hand-held version of the scanner can roam around the surface and registration algorithms used to gradually build up the shape of any large, complex subject.

Our products and services are tailored to customer requirements. We can fast-scan and build 3D models to specification. Alternatively, customers providing surface acquisition services can licence our unique, fast-scan, multiple-strip technology to be used as plug-in to their preferred acquisition system.

3D modelling for bacteria characterisation and identification - Multi-Angle Laser Light Scattering (MALLS)

We have long standing experience in bacteria characterisation and identification, using diverse types of equipment and techniques for fast and automated classification. A particular development is the patented method for bacteria characterisation and identification using multi-angle laser light scattering (MALLS). The method is fast and non-invasive and is based on determining particle's properties (shape, size, distribution, multiple layers and refractive indices) in water-based environments allowing sample discrimination.

Our characterisation and identification technique has wide applications including water and drinks industry, clinical analysis and many others such as in security and public health.