Patent Number: 202241030155, Applicant: Ramesh Chandra Poonia.
Drone navigation works by building a map of its surroundings while tracking its position within the map. This allows the drone to demonstrate positional accuracy (the global average URE (User error rate) across all satellites) of < 0.643 m (2.1 ft.) 95% of the lime using the Global Positioning System (GPS). The problem with this technology is twofold. It deploys only L band communication in practice.
Patent Number: 202241030155, Applicant: Ramesh Chandra Poonia.
Drone navigation works by building a map of its surroundings while tracking its position within the map. This allows the drone to demonstrate positional accuracy (the global average URE (User error rate) across all satellites) of < 0.643 m (2.1 ft.) 95% of the lime using the Global Positioning System (GPS). The problem with this technology is twofold. It deploys only L band communication in practice.
Patent Number: 202241030155, Applicant: Ramesh Chandra Poonia.
Drone navigation works by building a map of its surroundings while tracking its position within the map. This allows the drone to demonstrate positional accuracy (the global average URE (User error rate) across all satellites) of < 0.643 m (2.1 ft.) 95% of the lime using the Global Positioning System (GPS). The problem with this technology is twofold. It deploys only L band communication in practice.
Patent Number: 202241028120, Applicant: Dr.S.Balamurugan.
One of the most dreadful diseases that reports high mortality rates in literature is cancer. Among the different types of cancer, lung cancer is considered to be the most dangerous disease leading to death. Lung Cancer is caused due to abnormal multiplying of cells which grows as a tumour. It has been reported in literature that every year nearly 15 million people die due to lung cancer around the globe. Lung cancer is difficult to treat as the symptoms of the disease is shown up during its final stages.
Patent Number: 202241028120, Applicant: Dr.S.Balamurugan.
One of the most dreadful diseases that reports high mortality rates in literature is cancer. Among the different types of cancer, lung cancer is considered to be the most dangerous disease leading to death. Lung Cancer is caused due to abnormal multiplying of cells which grows as a tumour. It has been reported in literature that every year nearly 15 million people die due to lung cancer around the globe. Lung cancer is difficult to treat as the symptoms of the disease is shown up during its final stages.
Patent Number: 202241028120, Applicant: Dr.S.Balamurugan.
One of the most dreadful diseases that reports high mortality rates in literature is cancer. Among the different types of cancer, lung cancer is considered to be the most dangerous disease leading to death. Lung Cancer is caused due to abnormal multiplying of cells which grows as a tumour. It has been reported in literature that every year nearly 15 million people die due to lung cancer around the globe. Lung cancer is difficult to treat as the symptoms of the disease is shown up during its final stages.
Patent Number: 202241032250, Applicant: Riya Thomas.
The present disclosure pertains to the methods of preparing nitrogen-doped multilayer graphene derivative via one-pot hydrothermal method utilizing a kind of high-rank coal termed, coke. The prepared nitrogen-doped multilayer graphene derivative possesses excellent fluorescence, long fluorescence lifetime, and, high quantum yield appropriate for bio-related applications.
Patent Number: 202241039689, Applicant: Neethu Joseph.
The current invention provides an environmentally friendly, green synthesis of a cost- effective and scalable nanocarbon-polymer composite with possible fluorescence features that may be used in fluorescence sensing. The fluorescence of the produced nanostructure is high, indicating that this could be employed in fluorescence-based sensing applications. Fluorescence spectroscopy experiments show that the produced nano-carbon has remarkable heavy metal ion sensing potential.
Patent Number: 202241033004, Applicant: S Gowtham Sanjai.
This invention discloses the favorable influence of nano ceramic coated components on the performance of diesel engines. 150 microns thick yttria stabilized zirconia coatings, with nano grained microstructure, when applied by using Atmospheric Plasma Spray (APS) coating technique, on the piston crown of a 5HP, single cylinder diesel engine, reduces the brake specific fuel consumption (BSFC) of the engine by ~ 20%. The improvement in performance has been established by comparing the performances (measuring the BSFC) of the engine when mounted with (a) OEM Piston and thereafter (b) coated piston.
Patent Number: 202241033004, Applicant: S Gowtham Sanjai.This invention discloses the favorable influence of nano ceramic coated components on the performance of diesel engines. 150 microns thick yttria stabilized zirconia coatings, with nano grained microstructure, when applied by using Atmospheric Plasma Spray (APS) coating technique, on the piston crown of a 5HP, single cylinder diesel engine, reduces the brake specific fuel consumption (BSFC) of the engine by ~ 20%. The improvement in performance has been established by comparing the performances (measuring the BSFC) of the engine when mounted with (a) OEM Piston and thereafter (b) coated piston.
