1 / 22

Dr. Raihan Ur Rasool Assistant Professor (Professional Member: OGF, IEEE, ACM)

Research Profile. vitalfact@{ieee,acm}.org. dr.raihan@niit.edu.pk. Dr. Raihan Ur Rasool Assistant Professor (Professional Member: OGF, IEEE, ACM). School of Electrical Engineering and Computer Science, NUST, Pakistan. Overview. Ph.D., Computer Application Technology (Grid Computing)

boyd
Télécharger la présentation

Dr. Raihan Ur Rasool Assistant Professor (Professional Member: OGF, IEEE, ACM)

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript

  1. Research Profile vitalfact@{ieee,acm}.org dr.raihan@niit.edu.pk Dr. Raihan Ur Rasool Assistant Professor (Professional Member: OGF, IEEE, ACM) School of Electrical Engineering and Computer Science, NUST, Pakistan

  2. Overview • Ph.D., Computer Application Technology (Grid Computing) • University: Wuhan University, China • Graduation Date: July 6, 2007 • Dissertation Title: A Virtualization Pro-middleware for Grid Computing • At SEECS: • Member:Distributed & Grid Computing Research Group • Research problems in this domain span three main areas:

  3. Publications (2007~2008) • Conferences • = 2 • = 1 • Other = 0 • Under Review = 1 • Journals • SCI = 1 • Other = 1 • Under Review = 1 • Currently working on: • Grid Application compatibility tester and extended RSL • Exploring Grid for health and environment (IF= 2.077)

  4. Projects • Funded Projects • Co-PI (Local) Experiments and Dissemination on Grid Standard: ProActive GCM --[INRIA-France (ICT-Asia)] • Submitted Proposals • Establishment of Neuro-Informatics Lab at NUST-SEECS (PC-1) • Combating Medicine Counterfeit Dilemma (ICT-Asia: France) • Key Person(s) : Ms ShamailaKiyani, Dr. Fauzan • Proposals in preparation • Braille converter for visually impaired • Mobile Integration, Urdu text to brail converter • Key persons and contributors: MS. ShamailaKiyani, Mr. Tahir Azim

  5. Projects Proposals in preparation • Consumer Level Solution of Counterfeit Medicines • 10% of the world drug supply may be counterfeit (WHO) • Develop robust Data security algorithms and protocols • Develop robust and reliable detection procedure using Data Matrix 2D codes • We propose two approaches: • Identification of counterfeit medicines via camera mobile • Identification of counterfeit medicines via smart keychain • Key persons and contributors: • BrightSpyre • Medicate • MS. ShamailaKiyani

  6. Projects Proposals in preparation • Framework for Optimizing Grid Middleware on Multi-core Processors • The change in computer architecture requires corresponding design modifications in programming paradigms • Naive implementations of grid middleware on multicore systems can severely impact performance • Development of an optimized multi-threaded grid middleware for emerging multi-core processors!! • Run multiple grid services on a CMP node!

  7. Projects Proposals in preparation • IT Training for people with disabilities • Change the values and beliefs that some people have regarding people with disabilities. • 20 millions PWDs in Pakistan • IT Training ( 50 PWDs) • GAP Analysis • Job Board • Job fair (September) • Key persons and contributors: • MS. ShamailaKiyani • BrightSpyre • STEP

  8. Questions ? BrailleDisabilities GridCounterfeit MedNeuro-Informatics

  9. Braille Converter • Braille is a code which enables blind persons to read and write. • Braille is the only reliable method of literacy for blind persons because it enables them to read and write and can actually be substituted for print in most circumstances. • A refreshable Braille display or Braille terminal is an electro-mechanical device for displaying Braille characters, usually by means of raising dots through holes in a flat surface • A soft cell has 6 or 8 pins made of metal or nylon; pins are controlled electronically to move up and down to display characters as they appear on the display of the source system • Dots 7 and 8, if present. can be used to show the position of the cursor in the text or for European 8 dot braille. They can also be used for advanced maths work and for computer coding.

  10. Watches Currently Available for the Visually-Impaired Refreshable Braille Displays

  11. Some products • TranscriBEX (Raised Dot Computing) • Braille -Talk (GW Micro) • Duxbury Braille Translator (Duxbury Systems, Inc.) • Hot Dots (IBM) (Raised Dot Computing) • MegaDots (Raised Dot Computing, Inc.) BACK->

  12. IT Training for People with Disabilities (PWDs) • We may have lost many Einstein --Hawking, Steven • 20 millions PWDs • 58 % males and 42 % females. • 2% jobs for PWDs • Change the values and beliefs that some people have regarding people with disabilities. • IBM hires PWD in variety of roles. • IT Training ( 50 PWDs) • GAP Analysis • Job Board • Job fair (September) [BrightSpyre,STEP] BACK->

  13. Framework for Optimizing Grid Middleware on Multi-core Processors • The microprocessor industry is rapidly moving towards chip multiprocessors • This change in computer architecture requires corresponding design modifications in programming paradigms, including grid middleware tools. • Naive implementations of grid middleware on multicore systems can severely impact performance because of limitations of shared bus bandwidth, cache size and coherency, and communication between threads. • Development of an optimized multi-threaded grid middleware for emerging multi-core processors!! • Run multiple grid services on a CMP node! BACK->

  14. Consumer Level Solution of Counterfeit Medicines • With the advent of communication technology, rapid development is taking place in the field of Healthcare than ever. • Every year in the world hundreds of people become victims of this deception (Counterfeit Med) • Minimize the risk and exposure of consumers to counterfeit drugs. • To facilitate the identification of counterfeit medicine by providing user friendly and cost efficient IT-based solution to End consumers. • we propose two approaches: • a) Identification of counterfeit medicines via camera mobile • b) Identification of counterfeit medicines via smart keychain

  15. Consumer Level Solution of Counterfeit Medicines • It is estimated that 25-50% of the medicines market is counterfeit • WHO states that 10% of the world drug supply may be counterfeit out of which 1 % sales in developed countries to over 10% in developing countries. • 2D matrix/barcode is a machine-readable representation of information • 2D barcode is an effective and robust solution since error correction codes are added to increase symbol strength: even if they are partially damaged, they can still be read. Incidents in Europe reported to PSI Counterfeit Incident System

  16. Consumer Level Solution of Counterfeit Medicines (Objectives) • Develop robust Data security algorithms and protocols • Develop robust and reliable detection procedure for Data Matrix 2D codes • Increase awareness of End-consumer • Develop an embedded device for capturing image which can work with MANETs or wireless mesh networking environment

  17. Robust Dencryption Algorithms SMS Comm-unication module Central Varification Authority Process Capture Algorithm Randomizer End Customer With mobile Data Matrix Information Interpretation and decision making Detailed Medicine Information and Decision Processing in Mobile at Consumer levels • User scans the encrypted Data matrix using the mobile camera. • Software for reading the encrypted Data matrix must be installed in the mobile. Development of this software is a strong research oriented module of our project and will be flexible enough to run to all types of mobiles. • The encrypted barcode is decoded at client end via randomly selecting the decoding algorithm. Information is automatically sent to Central Verification Authority (CVA) (Ministry of health) via SMS. Response from CVA is send back to customer in max five seconds. • The verified information is then displayed on user’s mobile along with the distributor‘s code. This distributor code must be unique for each distributor.

  18. Red alert Camera LCD Screen Consumer Level Solution of Counterfeit Medicines (Objectives) • End customer uses the Smart keychain scans the data matrix. • In order to scan user presses the scan button on keychain and hold the keychain next to the laser marked data matrix. • One of the decoding algorithms stored on memory chip is randomly selected to decode the scanned barcode. • After decoding, the expiry date is checked against the current date. If the medicine has been expired the alert signal (Red) will be generated, else other checks will be performed and Green signal can be generated. Other information such as Manufacture Company etc will be displayed on the text area. BACK->

  19. Neuro-Informatics Lab at NUST-SEECS • we need to think ahead of time and invest into research areas that hold the keys to future innovation and development. Studies of brain is one such field of studies • Neuroscientists all around the world are actively involved in exploring different brain regions and thus produce enormous amount of data • This project focuses on establishment of a Neuro-Informatics Lab at NUST/SEECS to collaborate with Blue Brain Project (BBP) being carried out at the Swiss Federal Institute of Technology (EPFL), • Existence of such a facility will enable Neuroscientists and Computer Scientists in Pakistan to conduct their experiments and analysis working on the data collected using state of the art research methodologies without investing in establishing the experimental Neuroscience facilities.

  20. Neuro-Informatics Lab at NUST-SEECS • Being a country with relatively less developed knowledge base in life sciences and systems science, it is imperative for us to involve ourselves in this endeavour and work closely with global centres of excellence on the subject. • Pakistani researchers would greatly benefit from the establishment of neuro-informatic research facility closely linked and guided by close international cooperation. • The establishment of Collaborative Blue Brain node would enable neuroscience community in Pakistan, to benefit from experimental data, expert authorities, new findings and specialized projects / workshops from all around the world. • The Lab will be the first lab in Pakistan which will introduce informatics/computational aspect of Cognitive Sciences in Pakistan.

  21. Neuro-Informatics Lab at NUST-SEECS • This Lab will also help the people from medicine and especially neuroscience doctors to see the simulated portions of brain. • One of the biggest advantages of collaborating with prestigious Life Sciences Schools would be capacity building. This will help local students from Pakistan to go to state of the art computational and experimentation labs and bring with them the knowledge of state of the art technologies being used and current issues of the above mentioned domains. • Human resource development in this field will enable Pakistan to become one of the leading countries engaged in its development BACK->

  22. References • http://www.translatum.gr/converter/braille.htm • http://blog.wired.com/gadgets/2006/12/realtime_textto.html • http://www2.edc.org/ncip/LIBRARY/vi/output.htm

More Related