Varun Malik, Ruchi Mittal, Vikas Rattan, Sachin Ahuja, Jaiteg Singh, Amit Mittal, Amandeep Kaur, Geetanjali,
The present disclosure relates generally to pharmaceuticals. More specifically, thedisclosure is directed to a pharmaceutical composition comprising apharmaceutically active component and an excipient, lyophilized pumpkin seedmucilage obtained from bio-waste pumpkin seeds. The mucilage is a suitableexcipient for functioning as a binder, a film former, a mucoadhesive agent, a10 release modifier, or combinations thereof. The disclosure also provides a processof preparation of the lyophilized pumpkin seed mucilage.
Rajni Bala, Reecha Madaan, Bharti Kaundle, Ravi Goyal
Deepika Sharma, Bhanu Sharma, Jaiteg Singh, Ruchi Mittal, Nitin Goyal, Vikas Rattan, Amandeep Kaur, Preetinder Singh Brar, Varun Malik
The present disclosure pertains to a method and apparatus for formulating flyrepellent solution. The method includes steps of mixing of one or more essentialoils, and one or more fly repellent ingredients with a pre-determined quantity ofwater. The method includes step of boiling, of the one or more essential oils, andthe one or more fly repellent ingredients along with the pre-determined quantity of10 the water at a pre-determined temperature, and cooling, of solution obtained afterboiling the one or more essential oils, and the fly repellent ingredients. Thesolution is filled in a container adapted to accommodate and receive the flyrepellant solution, and where the container facilitates in dispensing the flyrepellent solution for repelling one or more flies.
Shalli Rani, Himanshi Babbar
Kritika, Shubham Jain
The present disclosure relates generally to pharmaceutical formulations. 5 Specifically, the present disclosure provides a pharmaceutical formulation comprising of solid lipid nanoparticles of Nateglinide. More specifically, the disclosure provides a pharmaceutical formulation comprising of solid lipid nanoparticles of Nateglinide and curcumin, wherein curcumin is a bio-enhancer.
Sandeep Arora, Sonia Dhiman, Ashi Mannan
Ruchi Mittal, Vikas Rattan, Varun Malik, Amit Mittal, Jaiteg Singh, Preetinder Singh Brar, Bhanu Sharma
The present disclosure provides a device (100) for facilitating remote interactive lessons between a first user and a second user. The proposed device (100) 5 includes an inclinable bench (102), removably supported by a base and a vertical support assembly (104), the inclination being adjustable by the first user. The bench (102) is enabled to support an inclined platform (108) adapted to receive a reusable writing surface. A set of images of the writing surface are enabled to be captured by an electronic image capturing, displaying and transmitting device, 10 that is configured to be attached to a mount (106) coupled to the bench. A set of actuators (110) coupled to the mount (106) are configured to be operated by the first user in generating a plurality of movements of the mount. The set of images are then transmitted through the electronic image capturing, displaying and transmitting device to the second user for interactive learning.
Naveen Kumar, Surya Narayan Panda, Rajesh Kumar Kaushal, Simranjeet Singh, Jyoti Sharma, Manish Sharma, Raj Gaurang
The present disclosure relates to a system (100) for de-fogging video, the system5 includes a processor (104) operatively coupled to an image capture device (102), theprocessor configured to receive one or more frames of a physical scene, analyze at leastone frame of the one or more frames to extract de-fogging parameters of the at leastone frame, acquire a de-fogged frame by removing fog from at least one frame using ade-fogging filter, compare the extracted de-fogging parameters of the at least one frame10 with consecutive frames to determine correlation, wherein, based on the determinationof correlation of the at least one frame with the consecutive frames, the processor isconfigured to remove fog from the consecutive frames to facilitate in increasing speedof de-fogging the one or more frames.
Isha Kansal, Renu Popli, Nitin Goyal, Geetanjali, Devender Prasad, Dinesh Kumar Singh, Kanwal Garg
The present disclosure relates to an apparatus (100) for reusing air, the apparatus5 includes a blower unit (104) configured in the apparatus to circulate air, a vortextube (102) configured to receive air from the blower unit (104) to produce hot airand cold air, a first end of the vortex tube (102) coupled to a pipe (122) of acompressor (116) to compress the received air from the blower unit, wherein, thecold air produced from the vortex tube (102) is delivered to indoor space through a10 first outlet (118) of the vortex tube; and thermoelectric cells (110) in a generator(106) coupled to a second outlet (120) of the vortex tube, wherein the hot airproduced from the vortex tube (102) is delivered to the thermoelectric cells (110)to generate electricity.
Puneet Bawa, Gulshan Dhillon, Pranav, Jashanpreet Kaur
The present disclosure provides a device (100) for reconfiguration and control of5 analog display unit. The device (100) includes one or more input ports (102)adapted to receive one or more portable multimedia storage. The device (100)couples one or more output channels (104) with an analog display unit. Thedevice (100) includes one or more adapters (106) configured to receive a set ofhigh definition digital multimedia signals from the one or more portable10 multimedia storage and generate a set of analog audio-visual signals. Acontroller (110) activates the one or more adapters (106) based on user inputs.One or more input keys (108) are configured to receive a set of input signalspertaining to selection of a first set of predefined functionalities of the device(100). The controller (110) is enabled to perform a first set of operations on the15 selected digital multimedia files and transmit the analog audio-visual signals tothe one or more output channels (104).
Amandeep Kaur, Sachin Ahuja, Meenu Khurana
The present disclosure pertains to a system (100) to assist a subject having autismand facilitates in enhancing physiological capacity of the subject. The system(100) includes a device (102) adapted to be coupled to a spectacle worn by thesubject, the device (102) includes an image acquisition unit (104) configured tocapture images of person interacting to the subject to detect emotions of the10 person to assist the subject in interaction, a first set of sensors (106) configured tosense heart rate value of the subject and provides sound therapies when the heartrate is not normal, a second set of sensors (108) configured to detect headmovement of the subject while focusing on one or more objects to track attentionspan of the subject. Also, the system (100) assists the subject in characters15 recognition and practicing the characters by displaying the character on a displayunit (114).
Aman Arora, Sandeep Arora, Surya Nayaran Panda, Jagdish Lal Raheja, Shubhank Saxena, Jaskeerat Singh Randhawa
The present disclosure relates to a system for maintaining social distancing, the5 system includes a device (102) adapted to be held by a user, the device comprisesa sensor (106), a transceiver (112), a microchip (108) and a processor (114). Theprocessor configured to receive, from the sensor, the position coordinates of the oneor more proximate users, receive, from the microchip (108), the identity attributesof the one or more proximate users. The processor extracts, from the position10 coordinates, a set of distance values of the one or more proximate users, whereinbased on a comparison of identity attributes of one or more proximate users and adeviation of the extracted set of distance values for the position coordinates from areference set of values, the transceiver is configured to transmit an alert to notifythe user to maintain physical distance.
Amandeep Kaur, Meenu Khurana, Geetanjali, Vinay Gautam, Dhawan Singh, Deepak Thakur, Tanya Gera, Isha Gupta, Neeru, Vikas Lamba
Inderbir Singh, Rashmi Aggarwal, Vishal Verma, Tanvi Verma
Abhinav Mangla, Ashish Gera, Neeraj Kumar, Adarsh Kumar Aggarwal, Amit Mittal
Aarti Rana, Shubham Jain
The present invention relates to a self-emulsifying drug delivery system (SEDDS)that comprises an oil phase, surfactant mixture and the active pharmaceuticalingredients. The SEDDS forms nano size emulsion (SENDDS) or micro sizeemulsion (SMEDDS) when comes in contact with gastrointestinal fluid medium ofvarying pH and in-vitro simulated aqueous medium. Specifically, the present10 invention relates to a SEDDS for improving the solubility and bioavailability of acombination of standard antihypertensive drug telmisartan and a dietary supplementtrans-resveratrol in a single dosage form.
Sumit Sharma, Sonali Batra, Sandeep Arora, Rithik, Rajan Sharma, Parmod Kumar
The present disclosure provides a system (100) for automatic vehicle towing5 notification to a remote user. The system (100) includes one or more rangesensors (102), coupled to the one or more wheels of a parked vehicle, the one ormore range sensors (102) being configured to detect displacement of the one ormore wheels from ground. A processing unit (108) is enabled to activate one ormore imaging sensors (104), configured to capture a set of images of towing10 vehicle in front of or behind the parked vehicle. The set of images are used todetermine a first set of attributes of the towing vehicle. A localization sensor(106) is enabled to detect and monitor a second set of attributes of the towedvehicle, the second set of attributes pertaining to location. The first and thesecond set of attributes are transmitted to the remotely located user through15 GNSS network associated with the localization sensor (106).
Deepali Gupta, Mani Madhukar, Ramneet, Mudita, Sheetal Sharma, Sheifali Gupta, Kamali Gupta, Rupesh Gupta, Naresh Kumar
The present disclosure relates to an apparatus (100) for dispensing fluids, the5 apparatus comprising a reservoir (106) comprising one or more separators (108)defining one or more compartments (110-1, 110-2) adapted for storage of fluids. Adispensing unit (104), upon activation of one or more actuators (112-1 to 112-3),configured to allow the flow of fluids and a drying unit (114) upon activation ofcorresponding one or more actuators, configured to supply hot air, wherein, upon10 activation of corresponding actuators, the dispensing unit configured to permit theflow of any or a combination of fluids from the corresponding one or morecompartments to clean body parts of a user, the fluids pertaining to any or acombination of liquid and cleansing agents, and wherein, upon activation ofcorresponding actuators, the drying unit configured to supply hot air to dry the body15 parts of the user.
Shalli Rani, Ankita, Himanshi Babbar
The present disclosure pertains to a system (100) for detecting mask on face of anentity, and detecting body temperature of the entity to enable the entity to enter inan area. The system (100) can include a first set of sensors (102) for sensingentities in a first pre-defined area and actuating an image sensor (104) to captureimages of the entities. The system (100) can include a controller (112) for10 extracting and comparing facial attributes from the received images to check maskon the faces, and upon detection of the mask actuating a second set of sensors todetect temperature of the entities, and upon detecting the temperature value in pre-defined limit actuates one or motors (108) to unlock an entrance that facilitate inenabling the entities to enter in the area, also notifying the entities when mask is15 not found or temperature is beyond the pre-defined limit.