公开(公告)号：EP2748650A4

公开(公告)日：2016-01-13

申请号：EP12838857

申请日：2012-10-05

Applicant: LANDMARK GRAPHICS CORP ,  PRIYESH RANJAN ,  SHELDON BURT GORELL ,  KUMAR AMIT ,  CULLICK ALVIN STANLEY ,  CARVAJAL GUSTAVO A ,  URRUTIA KARELIS ALEJANDRA ,  KHAN HASNAIN ,  SAPUTELLI LUIGI ,  NASR HATEM

Inventor： PRIYESH RANJAN ,  SHELDON BURT GORELL ,  KUMAR AMIT ,  CULLICK ALVIN STANLEY ,  CARVAJAL GUSTAVO A ,  URRUTIA KARELIS ALEJANDRA ,  KHAN HASNAIN ,  SAPUTELLI LUIGI ,  NASR HATEM

IPC: G01V1/40 ,  G01V3/18

CPC classification number: E21B43/00 ,  E21B41/0092 ,  E21B43/16 ,  G01V99/005 ,  G06Q10/0637 ,  G06Q10/06375 ,  G06Q50/02

Abstract: Systems and methods for subsurface secondary and/or tertiary oil recovery optimization based on either a short term, medium term or long term optimization analysis of selected zones, wells, patterns/clusters and/or fields.

公开(公告)号：EP2748650A1

公开(公告)日：2014-07-02

申请号：EP12838857.6

申请日：2012-10-05

Applicant: Landmark Graphics Corporation ,  Priyesh, Ranjan ,  Sheldon, Burt, Gorell ,  Kumar, Amit ,  Cullick, Alvin, Stanley ,  Carvajal, Gustavo, A. ,  Urrutia, Karelis, Alejandra ,  Khan, Hasnain ,  Saputelli, Luigi ,  Nasr, Hatem

Inventor： PRIYESH, Ranjan ,  SHELDON, Burt, Gorell ,  KUMAR, Amit ,  CULLICK, Alvin, Stanley ,  CARVAJAL, Gustavo, A. ,  URRUTIA, Karelis, Alejandra ,  KHAN, Hasnain ,  SAPUTELLI, Luigi ,  NASR, Hatem

IPC: G01V1/40 ,  G01V3/18

CPC classification number: E21B43/00 ,  E21B41/0092 ,  E21B43/16 ,  G01V99/005 ,  G06F17/50 ,  G06F17/5009 ,  G06Q10/0637 ,  G06Q10/06375 ,  G06Q50/02

Abstract: Systems and methods for subsurface secondary and/or tertiary oil recovery optimization based on either a short term, medium term or long term optimization analysis of selected zones, wells, patterns/clusters and/or fields.

Abstract translation: 基于对所选区域，井，模式/群集和/或田地的短期，中期或长期优化分析的地下二次和/或三次采油优化的系统和方法。

公开(公告)号：DE202022101520U1

公开(公告)日：2022-07-13

申请号：DE202022101520

申请日：2022-03-23

Applicant: KUMAR AMIT ,  SINGH NAMRATA ,  PATHAK MANISH ,  PATHAK PRATEEK ,  PRASAD NEUPANE NETRA ,  SAMAD ABDUL ,  SINGH AMBRISH ,  VED AKASH ,  YADAV JAGAT PAL

IPC: A61K36/71 ,  A61K36/185 ,  A61K36/328 ,  A61K36/38 ,  A61K36/47 ,  A61K36/48 ,  A61K36/54 ,  A61P15/08

Abstract: Formulierung mit analgetischer und angstlösender Aktivität, dadurch gekennzeichnet, dass die Formulierung chemische Verbindungen auf Basis von {4-[(2,4-Dinitro-phenyl)-hydrazonomethyl]-phenoxy}-thioessigsäure-S-(4-methoxyphenyl)ester umfasst.

公开(公告)号：AU2021103425A4

公开(公告)日：2022-05-19

申请号：AU2021103425

申请日：2021-06-17

Applicant: AVTAR RAM ,  BADONI MANOJ PRASAD DR ,  CHIKTE SHUBHANGI DIGAMBER DR ,  GADGAY BASWARAJ DR ,  KUMAR AMIT ,  KUMARI SHABNAM ,  SAKTHIVEL N K DR ,  SALAM YUSUF DR ,  SAROHA JAIPAL DR ,  SUBASREE S DR

Inventor： SALAM YUSUF ,  AVTAR RAM ,  KUMAR AMIT ,  SAROHA JAIPAL ,  BADONI MANOJ PRASAD ,  GADGAY BASWARAJ ,  SUBASREE S ,  CHIKTE SHUBHANGI DIGAMBER ,  SAKTHIVEL N K ,  KUMARI SHABNAM

IPC: A01G25/16 ,  A01C23/04 ,  G06Q50/02 ,  G16Y10/05 ,  G16Y20/10

Abstract: An IOT based mostly moveable System for Automatic Irrigation and fertilizer. An IOT Based Portable System for Automatic Irrigation and Fertilizer is a country wherever water scarceness is Janus-faced in virtually each region, whenever it's coming back to famer's purpose of read this example is extremely worst. Most of the farmers don't seem to be obtaining correct water and anticipating monsoon season for growing any crops in their field. Even most of farmers are taking one crop in a very year, that is completely a waste of resources because of lack of water in those various areas. For an ideal answer for this water drawback, we will give micro-irrigation method here. we will collect great amount of waste water/ rainy water in huge areas and later, we will provide this water to various field to crop the filed. For this, we have a tendency to use web of Things (IoTs) as wireless sensors here to produce actual quantity of water to a specific area/ region. for instance, sugarcane crop needs less quantity of water or once in a very month. For obtaining data a couple of crops like sugarcane, wireless sensors (IoTs) ought to be mounted in varied places of the sector. The sensors can collect the knowledge (input parameters) like temperature, air wetness, soil wetness, wind speed and radiation, and store this data within the information. Here for our system, input parameters are going to be air, temperature, soil wetness, radiations and wetness and supported these inputs we are going to realize demand of water in and can complete demand of water through micro-irrigation method to it area. TOTAL NO OF SHEET: 003 NO OF FIG.: 03 Wate evel Tempirafttug Hmidity IMir indicatr 1Q1Cig Senso Senso Transmitter zi wsamfl unase122 RELA112 - otor A mutiationL *Raw Fiur 1:a->Dt T Ainio--Ito bsed Iriata oion - nd edition Sy stem zaio

公开(公告)号：AU2021102721A4

公开(公告)日：2021-12-02

申请号：AU2021102721

申请日：2021-05-21

Applicant: KUMAR AMIT MR ,  RANJAN RAKESH DR ,  RATNAM VERMA PUSHPENDRA MR

Inventor： RATNAM VERMA PUSHPENDRA ,  SINGH DHARAM PAL ,  GOUDAR R H

IPC: G05D1/02 ,  B63B22/00 ,  G01S5/00 ,  G05D1/04 ,  H04L12/715 ,  H04L29/08 ,  H04W84/18

Abstract: Abstract The present disclosure seeks to provide a system and a method for tracking and scrutinizing an aquatic sensory node. This disclosure comprises of the following steps: deploying a plurality of sensor nodes at multiple locations on an aquatic bed for tracking a real-time moment of at least one underwater living organism; a plurality of sensor node combined with a plurality of cluster node includes information of the real-time moment of the underwater living organism in a defined range; associating a plurality of anchor node with each of the plurality of cluster node for transmitting information of the real-time moment of the underwater living organism to an autonomous underwater vehicle, wherein the vehicle moves by calculating a pressure difference during its movement; adjusting a plurality of coordinates of the underwater vehicle using a navigation module embodied in it based on the calculated distance and the information received from the plurality of anchor node; and positioning a plurality of surface buoys on an aquatic surface for receiving the plurality of coordinates of the underwater vehicle and identifying the real-time location of the underwater vehicle. Base Stadon level Surface Buos level AUWlevel ~~_ _Cluster Level Figure 5 (a) (b) (c) (d) Figure 6

公开(公告)号：AU2021104282A4

公开(公告)日：2022-05-26

申请号：AU2021104282

申请日：2021-07-18

Applicant: CHAURASIA MOUSMI AJAY ,  GUPTA SWATI ,  KUMAR AMIT ,  MISHRA AMITA ,  VERMA BABITA

Inventor： CHAURASIA MOUSMI AJAY ,  VERMA BABITA ,  MISHRA AMITA ,  KUMAR AMIT ,  GUPTA SWATI

IPC: G16H50/20 ,  A61B5/00 ,  A61B5/08 ,  A61B6/00 ,  A61B6/03 ,  G06N3/02 ,  G06T7/00 ,  G06T7/11 ,  G16H30/40

Abstract: • The present invention relates to Deep learning based system for detection of covid-19 disease of patient at infection risk. • The objective of the present invention is to solve the problems in the prior art related to technologies of detection of covid-19 disease using CT scan image processing. Image Receiving Image Module Processing Unit Communication Unit Computing Unit Network Display Figure 1: Deep learning based system for detection of covid-19 disease of patient at infection risk

公开(公告)号：AU2021101733A4

公开(公告)日：2021-05-20

申请号：AU2021101733

申请日：2021-04-06

Applicant: GOYAL ROHIT ,  HANS KANCHAN ,  KUMAR AMIT ,  LAKHANI BHAWANA ,  MEHROTRA TUSHAR ,  RATHORE NISHA ,  SAXENA ADITYA KISHORE ,  SAXENA SANDEEP ,  SHUKLA NEHA ,  VERMA NEHA

Inventor： MEHROTRA TUSHAR ,  VERMA NEHA ,  SHUKLA NEHA ,  RATHORE NISHA ,  GOYAL ROHIT ,  KUMAR AMIT ,  HANS KANCHAN ,  SAXENA ADITYA KISHORE ,  SAXENA SANDEEP ,  LAKHANI BHAWANA

IPC: G16Y40/35 ,  G06Q30/02 ,  G06Q50/12 ,  G16Y10/80

Abstract: Our invention Internet of Things (loT) System and Method for Smart Hotel Location and Internal Status Update is an Internet of Things (IOT) system for a smart hotel and a mobile client is in wireless signal connection with a hotel customer control system via a cloud server. The invention is to an Each GEH smart host is in wireless signal connection with a corresponding room intelligent device and a user sends an instruction to the hotel customer control system via the cloud server with the mobile client. The invention is a hotel customer control system, according to the instruction, sends a control instruction to the GEH smart hosts. The GEH smart hosts, according to the received control instruction, wirelessly control the room intelligent devices and the IOT system and method may achieve self-service check in and remote control of the room intelligent devices. The invention is to a wireless device access system employs short-range wireless communication to require the proximity of a user device to a structure prior to communicating an unlock request and The access system authenticates the unlock request and the proximity of the user to the structure prior to transmitting an unlock command to the structure. The invention is to the wireless device may require the proximity of a user token prior to operation and/or the access system may include an override within the structure blocking any unlock command and a hotel management system which relies upon each guest being provided with a smart card that identifies the guest and enables transactions between the guest. RFID Unit Smart Hotel SenorsInternet Unit NFC Unit -G, 5-G, WIMax Uni FIG. 1 shows a schematic block-diagram of a system.

公开(公告)号：DE202022100349U1

公开(公告)日：2022-03-09

申请号：DE202022100349

申请日：2022-01-22

Applicant: CHAKRAVERTI ASHISH KUMAR ,  CHAKRAVERTI SUGANDHA ,  KUMAR AMIT ,  MONIKA MONIKA ,  SHAKYA ACHALA ,  SINGH GARIMA ,  SINGH MURARI KUMAR ,  TRIPATHI GAURAV ,  TYAGI BIJENDRA ,  VERMA DEEPAK KUMAR

IPC: B60W50/14

Abstract: Eine Mehrzweck-Verkehrssicherheitsvorrichtung für Langstreckenfahrer, die Folgendes umfasst:eine Kamera zur Aufnahme von Videos/Bildern einer Straße in Echtzeit;ein nicht-bildgebendes Radar zur Erstellung eines zweidimensionalen Bildes der Straße;eine Steuereinheit zum Erkennen von Straßenzuständen, Geschwindigkeitsunterbrechungen, plötzlichem Gefälle und unterbrochener Straße aus einer vorbestimmten Entfernung unter Verwendung eines aufgenommenen Videos/Bildes und eines zweidimensionalen Bildes der Straße; undein Trainingsmodul, das mit einem neuronalen Netz verbunden ist, um ein Fahrmuster des Fahrers mit seinem Namen zu speichern und zu überwachen, um den Fahrer zu warnen, wenn das Fahrmuster von einem Schwellenwertmuster abweicht.

公开(公告)号：AU2021106573A4

公开(公告)日：2021-11-25

申请号：AU2021106573

申请日：2021-08-23

Applicant: C R KOMALA DR ,  DEBNATH PAPIYA DR ,  GHOSH AMRIT DR ,  HASAN MOHD ASIF DR ,  J PRIYA DR ,  KUMAR AMIT MR ,  NAYAK MANJUSHREE DR ,  NEWARE RAHUL MR ,  PALLATHADKA HARIKUMAR DR ,  SENTHIL R MR ,  SHAIK BAZANI DR ,  KSHATRI SAPNA SINGH DR

Inventor： C R KOMALA ,  KSHATRI SAPNA SINGH ,  NAYAK MANJUSHREE ,  NEWARE RAHUL ,  KUMAR AMIT ,  J PRIYA ,  HASAN MOHD ASIF ,  SHAIK BAZANI ,  PALLATHADKA HARIKUMAR ,  SENTHIL R ,  GHOSH AMRIT ,  DEBNATH PAPIYA

IPC: H04L29/06

Abstract: A MODEL DRIVEN ENGINEERING PLATFORM FOR DESIGNING MULTI PARADIGM CYBER PHYSICAL SYSTEMS Intrinsically multi-disciplinary undertaking is a cyber physical system of examination and demonstrating. For a writing reference that conveys strong foundations anybody beginning in this field will unavoidably confront the requirement. In plenty of various formalisms, each with its own methods, apparatuses, and strategies, the intricacy of digital actual frameworks is ordinarily tended to through complex work processes, including models. In designing practice some work process designs joined with specific sorts of procedures and formalisms on models in these formalisms are utilized effectively. As demonstrating standards to reuse and recognize them, we allude to these mixes of formalism designs and work process. To portray these standards, just as their mixes this invention proposes a bringing together framework. To demonstrate each part and perspective of a framework expressly, at the most fitting level of reflection, utilizing the most proper displaying formalism and work processes this work is set with regards to multi-paradigm modelling, which depends on the standard.

公开(公告)号：WO2017039789A1

公开(公告)日：2017-03-09

申请号：PCT/US2016/038600

申请日：2016-06-22

Applicant: EXXONMOBIL UPSTREAM RESEARCH COMPANY CORP-URC-E2. 4A.296 ,  KUMAR, Amit ,  DESAI, Sanket, K.

Inventor： KUMAR, Amit ,  DESAI, Sanket, K.

IPC: G01N17/04

CPC classification number: G01N17/02 ,  G01N17/04 ,  G01N27/06

Abstract: A method of monitoring a pipeline, comprising positioning a probe device in the pipeline, passing the probe device along the pipeline, collecting at least one fluid sample at each of a plurality of locations along a length of the pipeline, passing each fluid sample into the probe device, and measuring at least one corrosion-related parameter of a fluid at a plurality of locations along the pipeline, wherein the at least one corrosion-related parameter is selected from a group consisting of: pH, temperature, pressure, viscosity, conductivity, salinity, deposits, and corrosivity.

Abstract translation: 一种监测管道的方法，包括将探针装置定位在管线中，使探针装置沿着管道通过，沿着管道的长度在多个位置的每个位置收集至少一个流体样品，将每个流体样品通入 探针装置，并且沿着管道测量多个位置处的流体的至少一个与腐蚀有关的参数，其中所述至少一个腐蚀相关参数选自：pH，温度，压力，粘度，电导率 ，盐度，沉积物和腐蚀性。