Patents Assigned to Centre for Materials for Electronics Technology (C-MET)
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Patent number: 11793408Abstract: The present disclosure relates to method for predicting location and depth of abnormal tissue in breast tissue by prediction system. The prediction system predicts location based on 2D thermal image generated based on temperature values and intermediate temperature values. The intermediate temperature values are estimated using triangular and rectangular patterns formed on pre-defined model of breast, thermal conductivity of breast tissue, 2D coordinates on one of triangular and rectangular patterns and temperature values at steady state of breast tissue. The depth is predicted based on 3D thermal image of breast tissue generated using temperature values and intermediate temperature values and error parameter.Type: GrantFiled: June 28, 2022Date of Patent: October 24, 2023Assignees: THE SECRETARY, MINISTRY OF ELECTRONICS AND INFORMATION TECHNOLOGY, GOVT. OF INDIA, THE DIRECTOR GENERAL, CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET), THE PRINCIPAL, GOVERNMENT ENGINEERING COLLEGE, THE DIRECTOR, MALABAR CANCER CENTRE (MCC)Inventors: Seema Ansari, Muralidharan Malamal Neelanchery, Arathy Kottapurath, Eva Ignatious, Ranjith Kizhupadath Ravindran, Deepak Puthan Purayil, Sudheesh Raveendran Nair Sarojini, Satheesan Balasubramanian
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Publication number: 20220354369Abstract: The present disclosure relates to method for predicting location and depth of abnormal tissue in breast tissue by prediction system. The prediction system predicts location based on 2D thermal image generated based on temperature values and intermediate temperature values. The intermediate temperature values are estimated using triangular and rectangular patterns formed on pre-defined model of breast, thermal conductivity of breast tissue, 2D coordinates on one of triangular and rectangular patterns and temperature values at steady state of breast tissue. The depth is predicted based on 3D thermal image of breast tissue generated using temperature values and intermediate temperature values and error parameter.Type: ApplicationFiled: June 28, 2022Publication date: November 10, 2022Applicants: THE SECRETARY, MINISTRY OF ELECTRONICS AND INFORMATION TECHNOLOGY, GOVT. OF INDIA, THE DIRECTOR GENERAL, CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET), THE PRINCIPAL, GOVERNMENT ENGINEERING COLLEGE, THE DIRECTOR, MALABAR CANCER CENTRE (MCC)Inventors: Seema ANSARI, Muralidharan Malamal NEELANCHERY, Arathy KOTTAPURATH, Eva IGNATIOUS, Ranjith Kizhupadath RAVINDRAN, Deepak Puthan PURAYIL, Sudheesh Raveendran Nair SAROJINI, Satheesan BALASUBRAMANIAN
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Patent number: 11375901Abstract: The present disclosure relates to method for predicting location and depth of abnormal tissue in breast tissue by prediction system. The prediction system predicts location based on 2D thermal image generated based on temperature values and intermediate temperature values. The intermediate temperature values are estimated using triangular and rectangular patterns formed on pre-defined model of breast, thermal conductivity of breast tissue, 2D coordinates on one of triangular and rectangular patterns and temperature values at steady state of breast tissue. The depth is predicted based on 3D thermal image of breast tissue generated using temperature values and intermediate temperature values and error parameter.Type: GrantFiled: March 20, 2018Date of Patent: July 5, 2022Assignees: THE SECRETARY, MINISTRY OF ELECTRONICS AND INFORMATION TECHNOLOGY, GOVT. OF INDIA, THE DIRECTOR GENERAL, CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET), THE PRINCIPAL, GOVERNMENT ENGINEERING COLLEGE, THE DIRECTOR, MALABAR CANCER CENTRE (MCC)Inventors: Seema Ansari, Muralidharan Malamal Neelanchery, Arathy Kottapurath, Eva Ignatious, Ranjith Kizhupadath Ravindran, Deepak Puthan Purayil, Sudheesh Raveendran Nair Sarojini, Satheesan Balasubramanian
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Publication number: 20190200874Abstract: The present disclosure relates to method for predicting location and depth of abnormal tissue in breast tissue by prediction system. The prediction system predicts location based on 2D thermal image generated based on temperature values and intermediate temperature values. The intermediate temperature values are estimated using triangular and rectangular patterns formed on pre-defined model of breast, thermal conductivity of breast tissue, 2D coordinates on one of triangular and rectangular patterns and temperature values at steady state of breast tissue. The depth is predicted based on 3D thermal image of breast tissue generated using temperature values and intermediate temperature values and error parameter.Type: ApplicationFiled: March 20, 2018Publication date: July 4, 2019Applicants: THE SECRETARY, MINISTRY OF ELECTRONICS AND INFORMATION TECHNOLOGY, GOVT. OF INDIA, THE DIRECTOR GENERAL, CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET), THE PRINCIPAL, GOVERNMENT ENGINEERING COLLEGE, THE DIRECTOR, MALABAR CANCER CENTRE (MCC)Inventors: Seema Ansari, Muralidharan Malamal Neelanchery, Arathy Kottapurath, Eva Ignatious, Ranjith Kizhupadath Ravindran, Deepak Puthan Purayil, Sudheesh Raveendran Nair Sarojini, Satheesan Balasubramanian
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Patent number: 9881707Abstract: The present disclosure relates to a process for synthesis of barium bismuth sulfide nanofibers, having equivalent shielding capacity as lead. The present disclosure also relates to a radiation shielding articles and cosmeceuticals.Type: GrantFiled: December 17, 2013Date of Patent: January 30, 2018Assignee: CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET)Inventors: Bharat B. Kale, Milind V. Kulkarni, Rajendra P. Panmand, Ujjwala V. Kawade, Sanjay K. Apte, Sonali D. Naik, Jalindar D. Ambekar, Ravindra S. Sonawane, Dinesh P. Amlanerkar, Nilofer Shroff, Sandip Chatterjee
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Patent number: 9505902Abstract: The present disclosure relates to ceramic fillers and methods for preparing said ceramic fillers. The present disclosure further relates to dielectric resonator, fluoropolymer-ceramic filler compositions and their corresponding laminates along with their respective methods for preparing the same from the ceramic fillers. The present disclosure further provides a dielectric resonator and fluoropolymer-ceramic filler laminates having enhanced dielectric properties. The present disclosure also relates to various microwave applications of such fillers, resonators and laminates including microwave devices and circuits.Type: GrantFiled: March 28, 2014Date of Patent: November 29, 2016Assignees: SECRETARY, DEPARTMENT OF ELECTRONICS AND INFORMATION TECHNOLOGY, GOVT OF INDIA, EXECUTIVE DIRECTOR, CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET), SECRETARY, DEPARTMENT OF ATOMIC ENERGYInventors: Ratheesh Ravendran, Stanley Jacob Kollannoor, Kodakattumana Purushothaman Murali, Akhilesh Jain, Pundlik Rama Hannurkar
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Patent number: 9455064Abstract: Circuits characterized by plural conductive paths supported on a non-conductive substrate are provided. Ceramic filler compositions and methods for preparing the ceramic filler compositions are also provided. Further, fluoropolymer-ceramic filler compositions and their laminates along with their respective methods for their preparation are provided. The fluoropolymer-ceramic filler compositions provide for excellent properties for dielectric constant, loss tangent and temperature coefficient of dielectric constant. In addition, electrical substrate materials having a conductive outer layer supported on a thin sheet of insulating material are also provided.Type: GrantFiled: December 12, 2013Date of Patent: September 27, 2016Assignees: Centre for Materials for Electronics Technology (C-MET), The Secretary, Dept. of Electronics and IT, Govt. of IndiaInventors: Rajesh Surendran, Murali Kodakkattumana Purushothaman, Ratheesh Ravendran
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Publication number: 20150287485Abstract: The present disclosure relates to a process for synthesis of barium bismuth sulfide nanofibers, having equivalent shielding capacity as lead. The present disclosure also relates to a radiation shielding articles and cosmeceuticals.Type: ApplicationFiled: December 17, 2013Publication date: October 8, 2015Applicants: CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET), SECRETARY, DEPARTMENT OF ELECTRONICS AND INFORMATION TECHNOLOGY (DEITY)Inventors: Bharat B. Kale, Milind V. Kulkarni, Rajendra P. Panmand, Ujjwala V. Kawade, Sanjay K. Apte, Sonali D. Naik, Jalindar D. Ambekar, Ravindra S. Sonawane, Dinesh P. Amlanerkar, Nilofer Shroff, Sandip Chatterjee
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Publication number: 20150274926Abstract: The present disclosure relates to ceramic fillers and methods for preparing said ceramic fillers. The present disclosure further relates to dielectric resonator, fluoropolymer-ceramic filler compositions and their corresponding laminates along with their respective methods for preparing the same from the ceramic fillers. The present disclosure further provides a dielectric resonator and fluoropolymer-ceramic filler laminates having enhanced dielectric properties. The present disclosure also relates to various microwave applications of such fillers, resonators and laminates including microwave devices and circuits.Type: ApplicationFiled: March 28, 2014Publication date: October 1, 2015Applicants: SECRETARY, DEPARTMENT OF ELECTRONICS AND INFORMATION TECHNOLOGY, GOVT OF INDIA, SECRETARY, DEPARTMENT OF ATOMIC ENERGY, EXECUTIVE DIRECTOR, CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET)Inventors: Ratheesh RAVENDRAN, Stanley Jacob KOLLANNOOR, Kodakattumana Purushothaman MURALI, Akhilesh JAIN, Pundlik Rama HANNURKAR
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Publication number: 20140170088Abstract: The present disclosure provides nanoparticles of barium zirconium oxide (BaZrO3.BaCO3) and a process for preparation thereof. The present disclosure further provides a coating formulation that chiefly comprises the BaZrO3.BaCO3 nanoparticles along with its method of preparation. Still further, the present disclosure provides X-ray retardant articles and an X-ray retardant preparation for topical application.Type: ApplicationFiled: December 16, 2013Publication date: June 19, 2014Applicants: SECRETARY, DEPARTMENT OF ELECTRONICS AND INFORMATION TECHNOLOGY (DeitY), CENTRE FOR MATERIALS FOR ELECTRONICS TECHNOLOGY (C-MET)Inventors: Bharat Bhanudas Kale, Milind Vyankatesh Kulkarni, Rajendra Popat Panmand, Ujjwala Vilas Kawade, Sanjay Krushnaji Apte, Sonali Deepak Naik, Jalindar Dnyandev Ambekar, Ravindra Shravan Sonawane, Ramadoss Marimuthu, Dinesh Pundalik Amalnerkar, Nilofer Shroff, Sandip Chatterjee
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Publication number: 20140162065Abstract: The present disclosure is in the field of electrical circuits and particularly to circuits characterized by plural conductive paths supported on a non-conductive substrate. The disclosure relates to ceramic filler compositions and methods for preparing said compositions. Further, the present disclosure discloses fluoropolymer-ceramic filler compositions and their laminates along with their respective methods for preparing the same. Said fluoropolymer-ceramic filler compositions provide for excellent properties for dielectric constant, loss tangent and temperature coefficient of dielectric constant. In addition, electrical substrate materials comprising of a conductive outer layer supported on a thin sheet of insulating material is also disclosed.Type: ApplicationFiled: December 12, 2013Publication date: June 12, 2014Applicants: Centre for Materials for Electronics Technology (C-MET), The Secretary, Dept. of Electronics and IT, Govt. of IndiaInventors: Rajesh SURENDRAN, Murali Kodakkattumana PURUSHOTHAMAN, Ratheesh RAVENDRAN