Various imaging systems such as endoscopes, microscopes, X-ray devices, CTs, MRIs or operating room monitoring cameras are used in medical applications. The video sources are based on different interfaces, resolutions, video standards, control options, etc. A major challenge is to install all these video sources in the clinical environment, provide the most diverse cable concepts, operate the cameras, transport, display, document and archive image and video data or, for example, to make the data visible for remote diagnosis.
This was exactly the focus for STEMMER IMAGING's newly developed concepts and products such as, the »Medical Video Server«, making it possible to record, manage and display any common video source and to distribute the data via LAN/WAN. Whether SD or HD, analogue or digital – we have the right solutions for you.
Another example are our FGI modules: small, modular GigE interfaces for transporting different video source data to a Gigabit Ethernet network. Currently, we already supply modules for Sony auto-focus integrated zoom cameras which are frequently used in surgical light cameras and operating theatre monitoring cameras, for example. This interface not only provides image transfer but also integrates complete camera control and power supply. Thus, no complex cabling with many different special cables is required: one single network cable will be sufficient. Control and visualization are also done via the network.
The modular conception of the FGI modules allows for easy adaptation to other image sources and for functional extension, such as image data compression for HD video streaming via network.
The introduction of new Gocator® laser line profilers, snapshot sensors and the GoMax plug and play smart vision accelerator by LMI Technologies transforms inline quality inspection capabilities. The 2500 series of smart sensors are the fastest, most compact, and advanced Gocator® 3D laser line profilers to date. The Gocator 3504 is the highest XY resolution 3D snapshot sensor on the market today. GoMax® can accelerate any Gocator® by adding massive GPU-driven data processing power to the sensor (or sensor network).
A new, wide angle lens with a focal length of 25 mm has been added to the Zeiss Interlock range of compact, lightweight lenses. These are designed for use with large format area and line scan cameras. The full metal housing, locking screws for focus and aperture and their resilience to dust, water and vibration make these lenses ideally suited to use in very harsh industrial environments.
The JAI Apex Series of 3CMOS prism-based colour area scan cameras has been expanded with 5 new models. The range now features 3.2 Mpixel and 1.6 Mpixel versions, with PMCL, USB3 Vision, and GigE Vision interfaces available in each resolution.
With the new bonNDTinspect® system, Automation W+R enables the reliable assessment of surfaces that are to be bonded, painted or otherwise treated in subsequent process steps. The system is based on a patent held by Fraunhofer IFAM and machine vision components from STEMMER IMAGING.
Sophisticated technology for the pharmaceutical industry and the construction of machines in this sector are among the core competences of Harro Höfliger. Machine vision systems ensure reliable quality inspections at several points in a new plant for the packaging of painkillers.
Industrial vision plays an important role in reading unique identifiers in the form of 1D or 2D codes, alphanumerics or even braille for tracking and tracing applications in industries as diverse as aerospace, automotive, healthcare and pharmaceutical. Specialist vision systems integrators are frequently used to design systems for complex code reading tasks requiring extremely precise triggering and encoding to the manufacturing process. The choice of image processing software is important in complex imaging environments.
Codes may be printed or etched directly onto components or attached on labels. The vision system should have a camera and lens with sufficient resolution to read the particular code, an illumination system that allows the image to be produced with the necessary contrast, appropriate image processing software and a processor capable of running the software. The codes may need to be read at very high speed and at a number of different locations and the code reading process may be one vision task as part of a number of vision inspections in an overall quality inspection procedure.
Sherlock is an advanced machine vision software interface from Teledyne DALSA featuring a comprehensive suite of proven tools and capabilities that includes advanced pattern finding tools for object alignment and tools to read and verify 1D and 2D codes, as well as printed, moulded or stamped text (OCR). While these are essential requirements, it is Sherlock’s versatility that has such appeal for vision systems integrators. It allows mixing of imager type, resolution and interface in the same application and supports synchronous and asynchronous triggering.
Sherlock is ideally suited for use with multicore processors, offering the flexibility needed for different inspection speeds and machine cycle times. It is possible to set the software to use a single core, or all cores, allowing intensive processing inspections to use one or more cores with less intensive inspections using one core. In addition, Sherlock can be almost infinitely configured to run multiple cameras into one investigation or multiple investigations with single or multiple cameras.
Sherlock is also compatible with Visual Studio allowing the creation of custom user interfaces. Used in conjunction with Teledyne DALSA’s Sapera Vision Software libraries and drivers from STEMMER IMAGING’s CVB imaging toolkit, Sherlock can accept images from almost any camera, including line scan, area scan and 3D across all common interface formats such as GigE Vision, CameraLink and USB as well as emerging new image acquisition standards.
A contact lens manufacturer needed to read 1D, 2D and human readable codes on a packaging production line. This application was particularly challenging due to the number of part variances, and the incredibly tight physical constraints for the cameras and illumination.
Vision systems integrator, SIGA Vision, worked closely with vision technology supplier, STEMMER IMAGING, to develop a system that featured five asynchronous cameras using a single vision processor with multiple Sherlocks running. Demanding and complex projects such as these benefit from the joint expertise and breadth of technology offered by such a partnership.
SIGA Vision’s extensive experience in developing innovative machine vision software solutions, especially using Sherlock was complemented by STEMMER IMAGING’s wide-ranging choice of cameras, optics and lighting hardware from various manufacturers and comprehensive technical back-up for Sherlock.