Monday, March 29, 2010

Medical Imaging Solution

Growing ageing population and changes in lifestyle has created number of new health problems and diseases which in turn increases healthcare needs and it’s a common phenomenon all over the world.

To address the growing healthcare needs new medical devices are getting developed that includes therapeutics and diagnostics equipments for fast and accurate treatment.

With the advancement of imaging technology for diagnostics it is now possible to analyze and measure various medical parameters in the body. Digital Imaging is the leap step towards making diagnostic procedure fast and accurate with various other advantages.

Today many technology forums are coming up with new standards to make the digital imaging system more robust and easily accessible from any location, to make it realistic - imaging standards like JPEG2000/JPEG XR for lossless compression, DICOM for communication and PACS for archival and retrieval are gaining momentum.

To make the diagnostics imaging an integral part of the healthcare ecosystem, it’s highly essential to integrate the HL7, DICOM and PACS with the image processing system that will not only help physician or doctor to visualize and analyze patient's body parts at the time of diagnostics/surgery but also later-on to check health history and deciding on the treatment required.

The major pain area for the OEMs to develop such imaging system is separate image processing and visualization (2D/3D/4D) applications for various modalities like Ultrasound, DR, CR, CT, MRI, CMOS, PET, SPECT etc. which in turn increases the price of individual modality. Hence, increases the healthcare cost.

To address the pain point of OEMs, R&D Services Company like HCL Technologies is investing on developing core domain expertise and real-environment reference implementation. Strategic partnership with leading vision platform vendor and academic & healthcare institute provides the base to develop, implement, test and validate the concepts.

So, in near future it’s expected that image based medical diagnostic procedures will be completely digitized and integrated with hospital/healthcare network.

To discuss further please write back to me about the new developments in medical imaging.

- Sourabh Kumar Biswas

Imaging Consultant – HCL Technologies Ltd.
sourabhkumarb@hcl.com

Friday, September 18, 2009

Emerging Areas in Embedded Imaging

Since Stone Age human being is seeking for new and betters ways to perform jobs, so developed advance tools and mechanisms to achieve high efficiency and performance, but the major hindrance to expand the scope-of-work and to achieve the desired level of efficiency was visibility.

Today lots of new technologies are getting developed to capture and process images to increase visibility for high efficiency and safety. Mission critical programs which are mainly fault-tolerant like machines diagnosing living body; UAVs (Unmanned Arial Vehicle) commissioned for surveillance; vehicles for safe transport and industrial machines for high efficiency & performance needs highly efficient imaging systems with advance feature and high level of accuracy.

CMOS and infrared sensors are two dominating technologies for capturing image; many big vendors have developed sensors of HD resolution with high refresh-rate and low power consumption which is highly suitable for small size; battery operated or handheld devices. These imaging devices are in-turn connected to other systems through network interface for transmission and archival of captured images /video.

Some of the highly demanded applications for such devices are volume rendering (3D/4D); image fusion; image filtering; pseudo colouring; video analytics; collision detection; pattern recognition; image stitching and database integration.

Apart from feature rich modalities these devices are networked, so a high demand is arising to make these devices complaint to standard imaging protocols so that it can transmit the processed image without any fault or modification.

Bundling of applications give holistic image of the region understudy, it develops panoramic/3D view for better visibility; recognize the changes in the region over a given period of time and calculate future changes vis-à-vis necessary actions required. It helps doctors performing image guided surgery/diagnosis for better control on the tools, Law enforcement agencies checking unlawful events, driver of the automobile for safe driving, production line manager checking quality control etc. Also, integration of database gives more clear idea about the final image with the information about key parameters and report.

The major challenge with such devices is accuracy of the final image. So, to address the pain points of OEMs and Tier-1s in imaging technology, R&D house like HCL Technologies is investing on intensive research to develop complex imaging algorithms and successfully implemented the same on various devices which are in the market with zero recall history.

The success of HCL Technologies vest with the intellectual pool of resources who very well calibrate all the parameters before designing the algorithms for every stage, starting from image acquisition, processing, communication, archival, retrieval and display. It needs intensive research on designing systems architecture for accurate and fast computation to achieve real-time performance, which is much need in mission critical programs.

So, in near future it’s expected that imaging industry will touch new heights with fast and accurate imaging devices.

To discuss further please write back to me about the new developments in embedded imaging.

- Sourabh Kumar Biswas
Imaging Consultant – HCL Technologies Ltd.
sourabhkumarb@hcl.com