[Suhas Ranjan Gun, Priya Bandhu Chowdhury, Kashi Nath Bhattacharya, Achinta Kumar Roy, Umanand Sharma, Swapan Kumar Ghosh, Awadhesh Kumar Sinha, Santosh Kumar Chanda, Sukumar Mandal, Sanjay Kumar Ray, Asit Kumar Das, Satish Makhija, Sobhan Ghosh, Akhilesh Kumar Bhatnagar] Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Central Fuel Research Institute P.O. F.R.I. -828 108,Dhanbad, Bihar,,;Indian Oil Corporation Limited Research and Development Center, Sector 13,Faridabad, 121 007, Uttar Pradesh,,;Indian Oil Corporation Limited Research and Development Center, Sector 13,Faridabad - 121 007, Uttar Pradesh,,;Indian Oil Corporation Limited Research and Development Center, Sector 13,Faridabad, -121 007, Uttar Pradesh,,;Indian Oil Corporation Limited Research and Development Center, Sector 13,Faridabad, 121 007, Uttar Pradesh,,;Indian Oil Corporation Limited Research and Development Center, Sector 13,Faridabad, Uttar Pradesh,,;Indian Oil Corporation Limited Research and Development Center, Sector 13,Faridabad, Uttar Pradesh,, The present invention provides a process for the upgradation of petroleum residue into useful fractions by subjecting petroleum residue in the presence of a solvent and ferrous sulphate catalyst to a pressure in the range of 10 atm. to 120 atm., temperature in the range of 380-420° C., for a period in the range of 0-120 minutes, in a reactor vessel, in an inert atmosphere. The charge is then cooled to room temperature and the product gas released through scrubbers. The residue is re-heated, if required, for free flow of liquid product. The resulting liquid product is distilled to obtain useful fractions.

[GARG, Sanjay, GHOSH, Bipasha, BALRAM, Nikhil, SRIDHAR, Kaip, SAHU, Shilpi, TAYLOR, Richard, GWYN, Edwards, TOMASI, Loren, NAMBOODIRI, Vipin] 3573, 13th H. Main, HAL 2nd Stage Indaranagar Karnataka Bangalore;C-305, Celestial Greens, Apt. 6 Old Madras Road Nagavarapalya, C.V. Raman Nagar Karnataka Bangalore 560093;387 Foxborough Drive Mountain View, California 94041;No. 19, 'Gehesh Krupa', 13th Cross Vyalikaval Karnataka Bangalore 560003;2085, 14th Main 8th Cross Kodihalli Karnataka Bangalore 560075;2015 E. Clubhouse Drive Pheonix, Arizona 85048;248 Walker Drive #22 Mountain View, California 94043;3110 E. Horseshoe Drive Chandler, Arizona 85429;TH 16, 54/1, Vaswani Melrose DeverabeeBelandur P.O. Outer Ring Road Karnataka Bangalore 560037 A shared memory video processor including signal processing circuitry. The signal processing circuitry may enable a noise reducer and a de-interlacer to share access to field buffers in a memory device to store various field lines. Some of the stored field lines may also be shared within the signal processing circuitry. The sharing of some stored field lines reduces overall memory bandwidth and capacity requirements. The signal processing circuitry may be capable of performing multiple field line processing. A set of field line buffers may be provided to store field lines for multiple field segments and may provide the data to the corresponding inputs of the signal processing circuitry. To further reduce storage, some of the field line buffers may also be shared among the signal processing circuitry.

[DASTIDAR, Sudipta Ghosh, HIBARE, Sujitkumar Suresh, RAUT, Janhavi Sanjay, BHATTACHARYA, Suman Kumar] Weena 455 NL-3013 AL Rotterdam;100 Victoria Embankment London Greater London EC4Y 0DY;Unilever House B.D. Sawant Marg Chakala, Andheri East Maharashtra Mumbai 400 099;Hindustan Unilever Ltd. Research Centre 64 Main Road Whitefield Bangalore 560 066;Hindustan Unilever Ltd. Research Centre 64 Main Road Whitefield Bangalore 560 066;Unilever R&D Colworth Sharnbrook Bedfordshire MK44 1 LQ;Hindustan Unilever Ltd. Research Centre 64 Main Road Whitefield Bangalore 560 066 The invention relates to a shaped solid cleaning composition, especially in bar format, which utilises the detergency properties of new materials which are more efficient, relatively inexpensive and are environmentally friendly alternatives to conventional soaps or synthetic surfactants. The present invention provides for a shaped solid cleaning composition which comprises a specific amount of structuring agent and a specific amount of a treated particle. The precursor of the treated particle is an asymmetric 1:1 or 2:1: clay particle having alternating tetrahedral and octahedral sheets terminating with a tetrahedral sheet at a first external surface plane and an octahedral sheet at a second external surface plane. Either or both of said external surfaces is attached with a fatty acid or derivative thereof.

[Mohini Anand Bapat, Suman Kumar Bhattacharya, Tapomay Bhattacharyya, Sudipta Ghosh Dastidar, Vijay Mukund Naik, Janhavi Sanjay Raut] IN Mumbai This invention relates to a liquid or soft-solid personal cleansing composition that utilises the detergency properties of new materials which are more efficient, more inexpensive and are an environmentally friendly alternative to conventional soaps or synthetic surfactants. It more particularly relates to a cleansing composition in liquid, gel or cream formats. The present invention provides for a personal cleansing composition comprising (i) 1 to 50% of treated clay particles; and (ii) a cosmetically acceptable base; wherein said treated clay particles are asymmetric 1:1 or 2:1:1 clay particles having alternating tetrahedral and octahedral sheets terminating with a tetrahedral sheet at one external surface plane and an octahedral sheet at another external surface plane, with a fatty acid of carbon chain length 10 to 22 attached to coordinating cation on one of said exterior surface planes.

[Mohan Prabhu Kuvettu, Gopal Ravi Chandran, Sanjay Kumar Ray, Kamlesh Gupta, Ganga Shankar Misra, Venkatachalam Krishnan, Mitra Bhanu Patel, Satish Makhija, Sobhan Ghosh] ,Faridabad,,;,Faridabad,,;,Faridabad,,;,Faridabad,,;,Faridabad,,;,Faridabad,,;,Faridabad,,;,Faridabad,,;,Faridabad,, A fluid catalytic cracking additive composition to obtain enhanced yield of Liquified Petroleum Gas in catalytic cracking of high boiling petroleum feed stocks comprising 4 to 20 wt. % aluminum phosphate composite, 1-40 wt. % crystalline molecular sieve Zeolites from the group selected from mordenite ZSM-5, Beta and mixtures thereof and 40-90 wt. % clay.

[GHOSH, Sanjay, D, Atul Kumar, WAHLER, Michael, RAMASWAMY, Srini, REDDY, Rakesh] Affolternstrasse 44 8050 Zurich;202, Sreedevi Classic Appartments , 4th Cross Anugraha, Layout B .Narayanpura IN-560016 Bamgalore;5 Ganna Vikas , Samiti Road, Badripur Uttarakhand IN-248005 Dehradun;Wasserschoepfi 23 CH-8055 Zurich;E-1102 brigade Metropolis Gaurdacharpalya Mahadevpura PO, Whitefield Main Road IN-560048 Bangalore;Kosana Rakesh Reddy 40, SBH Colony, 1-4-880/2/37 Gandhi Nagar,New Bakaram IN-500 038 Hyderabad The invention relates to a method of online and dynamic schedule configuration of control applications in a Distributed Control System (DCS). The invention considers having a DCS with a plurality of controllers, where controllers include one or more of source controllers and one or more of destination controllers. The method of the invention comprises the steps of: a) selecting one or more blocks of control applications in an optimal manner. Such blocks of control applications in one or more source controllers can be migrated across one or more destination controllers; b) identifying one or more potential slots for executing blocks in one or more destination controllers. These potential slots are employed for accommodating the said selected one or more blocks of control applications accordingly; c) publishing the information pertaining to one or more of the said identified potential slots to a central management entity or to corresponding one or more said source controllers by the one or more destination controllers; d) determining said one or more potential slots and its corresponding said selected block thereto for each of the said destination controller accordingly by the central management entity or by the said one or more source controller; and e) proposing schedule configuration of control applications by the said central management entity or by the said one or more source controller; and f) performing schedulability analysis for each of the said one or more blocks or of its logical combination thereof. The invention also relate to a system for performing online and dynamic schedule configuration of control applications in a Distributed Control System (DCS) having a plurality of controllers, in accordance with the method of the invention.

[Sanjay Charati, Dibakar Dhara, Soumyadeb Ghosh, Nitin Mutha, Srinivasan Rajagopalan, Abbas Shaikh, Mark Elkovitch] IN Bangalore A method for manufacturing a conductive composition comprises blending a polymer precursor with a single wall carbon nanotube composition; and polymerizing the polymer precursor to form an organic polymer. The method may be advantageously used for manufacturing automotive components, computer components, and other components where electrical conductivity properties are desirable.

[Biswanath Sarkar, Ram Mohan Thakur, Nagesh Samant, Mohan Kuvettu Prabhu, Ravichandran Gopal, Mitra Bhanu Patel, Sanjay Kumar Ray, Krishnan Venkatachalam, Satish Makhija, Sobhan Ghosh] IN Faridabad The present invention relates to an improved process for obtaining sodium silicate alkali solution depleted of sodium salt and enriched in silica from a mother liquor recovered after isolation of molecular sieves and more particularly, the present invention relates to a process for recycling mother liquor obtained after the isolation of molecular sieves for the preparation of fresh molecular sieves or as a binder for producing Fluid Catalytic Cracking (FCC) catalyst.

[Sanjay Garg, Bipasha Ghosh, Nikhil Balram, Kaip Sridhar, Shilpi Sahu, Richard Taylor, Gwyn Edwards, Loren Tomasi, Vipin Namboodiri] IN Bangalore The invention includes a system and the associated method for decoding multiple video signals. The video signals may be component video, composite video or s-video signals each having multiple portions using a multimode video decoder. A selection stage may combine the multiple video signals and select some of their video signal portions for processing. The selection stage may time-multiplex some of the video signal portions. An analog to digital conversion stage may be shared by the time-multiplexing of the video signals. A decoder stage may decode the various signal portions and provide decoded output video signals. These feature may reduce the overall cost of the system. Various clock signals may be used to operate various stages of a multimode video decoder. Some of the clock signals may run at different frequencies and others may operate at a different phase.

[Gang Li, Xiangping Zou, Sanjay Gurbasappa Charati, Soumyadeb Ghosh] CN Shanghai Disclosed herein too is a method of manufacturing an electrically conducting polymeric composition comprising blending an organic polymer composition that comprises a thermoplastic organic polymer; an electrically conducting filler composition that comprises metal fibers; and an electrically insulating composition in an extruder; wherein the electrically insulating composition is fed into the extruder downstream of the location at which the organic polymer composition is fed into the extruder and wherein the electrically conducting filler composition is fed into the extruder at a location downstream of the location at which the electrically insulating composition is fed into the extruder.