Abstract: Disclosed is a system for alerting a user before a breakdown of a component present in a vehicle. In order to alert the user, initially, the system determines a status of a vehicle based on one or more sensors being deployed in the vehicle. Upon determining the status, the system computes component usage data, pertaining to a component, and residual life of the component. The component usage data may be computed based on the status of the vehicle and metadata associated to the status. The residual life of the component, on the other hand, may be computed based on reliability data associated to each component and the component usage data. Upon computation of the component usage data and the residual life, the system generates an alert to indicate a user regarding a breakdown of the component when the residual life is less than a predefined threshold life.

Abstract: The present disclosure relates to system(s) and method(s) for storing sensor data received from a device connected an Internet of Things (IoT) network. The system may store one or more record tables corresponding to one or more devices connected in an Internet of Things (IoT) network, in a database. Further, the system may receive a modification request from a device connected in the Internet of Things (IoT) network, wherein the modification request comprises a unique identification number corresponding to the device and a sensor configuration data. Further, the system may modify a table structure of a record table corresponding to the device to generate a modified table structure, based on the modification request. Further, the system may execute a programmed instruction stored in the memory to store the sensor data received from the device, in the record table, based on the modified table structure.

Abstract: Disclosed is a system and a method for determining an injectable amount of bile required for a patient after gallbladder removal. The system comprises a receiving module, a creating module, and a determining module. The receiving module may receive a bile-flow rate, physiological parameters of a patient, and amount of fatty food in an alimentary tract of the patient. Based on these data received, the creating module may create a graph. Further, the determining module may determine a correlation between the bile-flow rate and the amount of fatty food in the alimentary tract based on the graph created. The correlation may be determined corresponding to a normal person and the patient which may be seen by two separate curves on the graph. Further, the determining module may determine an injectable amount of bile required for the patient based on the correlation.

Abstract: Disclosed is a system for alerting a user before a breakdown of a component present in a vehicle. In order to alert the user, initially, the system determines a status of a vehicle based on one or more sensors being deployed in the vehicle. Upon determining the status, the system computes component usage data, pertaining to a component, and residual life of the component. The component usage data may be computed based on the status of the vehicle and metadata associated to the status. The residual life of the component, on the other hand, may be computed based on reliability data associated to each component and the component usage data. Upon computation of the component usage data and the residual life, the system generates an alert to indicate a user regarding a breakdown of the component when the residual life is less than a predefined threshold life.

Abstract: Disclosed is a system for dynamically modifying settings of a communication device based on an activity state of a user of the communication device. A data capturing module captures values corresponding to a plurality of physiological parameters associated to a plurality of activity states of a user. The values may be captured by using one or more wearable devices worn by a user. A configuration module enables the user to configure one or more rules and one or more events, to be triggered, corresponding to each of the one or more rules for modifying settings of the communication device. An activity state determining module determines an activity state, in real-time, from the plurality of activity states. An event triggering module triggers an event, of the one or more events, based on a rule configured corresponding to the activity state in order to dynamically modify the settings of the communication device.

Abstract: Disclosed herein is system and method for generating, storing and transmitting electrical charge from heart's electrical conduction system to power implantable medical devices. An intelligent monitoring module in the system monitors amount of nerve impulses that are generated at the Sinoatrial (SA) node of the heart and continuously compares number of the generated nerve impulses with a threshold nerve impulse value. If excess impulses are detected, the intelligent monitoring module routes the excess nerve impulses to a battery management module which generates charge by converting the excess nerve impulses to electric charge. This charge may be further used to power up the implantable medical device.

Abstract: The present disclosure relates to system(s) and method(s) for storing sensor data received from a device connected an Internet of Things (IoT) network. The system may store one or more record tables corresponding to one or more devices connected in an Internet of Things (IoT) network, in a database. Further, the system may receive a modification request from a device connected in the Internet of Things (IoT) network, wherein the modification request comprises a unique identification number corresponding to the device and a sensor configuration data. Further, the system may modify a table structure of a record table corresponding to the device to generate a modified table structure, based on the modification request. Further, the system may execute a programmed instruction stored in the memory to store the sensor data received from the device, in the record table, based on the modified table structure.

Abstract: Disclosed is a system for dynamically modifying settings of a communication device based on an activity state of a user of the communication device. A data capturing module captures values corresponding to a plurality of physiological parameters associated to a plurality of activity states of a user. The values may be captured by using one or more wearable devices worn by a user. A configuration module enables the user to configure one or more rules and one or more events, to be triggered, corresponding to each of the one or more rules for modifying settings of the communication device. An activity state determining module determines an activity state, in real-time, from the plurality of activity states. An event triggering module triggers an event, of the one or more events, based on a rule configured corresponding to the activity state in order to dynamically modify the settings of the communication device.

Abstract: Disclosed is a system and method for facilitating testing of a plurality of devices using a drone. At first, a locating module locates position of the drone relative to the plurality of devices. Further, a receiving module receives an image, of a device of the plurality of devices, from image capturing unit of the drone. Then, a comparing module compares the image with a reference image corresponding to the device. Based on the comparison, a determining module determines an action to be performed for testing the device. Further, a facilitating module facilitates the testing by enabling a snout associated with the drone to perform the action on the device.

Abstract: The present disclosure relates to system(s) and method(s) for driver authentication based on his driving style. Initially, the system is configured to generate a driver profile based on the driving style of an authorized user of a vehicle, wherein the driving style is captured from a plurality of sensors in the vehicle while the authorized user is driving the vehicle. The reference data comprises a point of contact of the authorized user with an internal component, a pressure applied by the authorized user over the internal component, and one or more external parameters. Once the driver profile is generated, in the next step, the system captures a real-time data from the plurality of sensors, wherein the vehicle is driven by a driver. Finally, the system is configured to authenticate the driver based on the comparison of the real-time data with the driver profile.

Abstract: Disclosed is a system and method for facilitating testing of a plurality of devices using a drone. At first, a locating module locates position of the drone relative to the plurality of devices. Further, a receiving module receives an image, of a device of the plurality of devices, from image capturing unit of the drone. Then, a comparing module compares the image with a reference image corresponding to the device. Based on the comparison, a determining module determines an action to be performed for testing the device. Further, a facilitating module facilitates the testing by enabling a snout associated with the drone to perform the action on the device.

Abstract: The present disclosure discloses a system and a method for determining an injectable amount of bile required for a patient after gallbladder removal. The system comprises a receiving module, a creating module, and a determining module. The receiving module may receive a bile-flow rate, physiological parameters of a patient, and amount of fatty food in an alimentary tract of the patient. Based on these data received, the creating module may create a graph. Further, the determining module may determine a correlation between the bile-flow rate and the amount of fatty food in the alimentary tract based on the graph created. The correlation may be determined corresponding to a normal person and the patient which may be seen by two separate curves on the graph. Further, the determining module may determine an injectable amount of bile required for the patient based on the correlation.

Abstract: Disclosed herein is system and method for generating, storing and transmitting electrical charge from heart's electrical conduction system to power implantable medical devices. An intelligent monitoring module in the system monitors amount of nerve impulses that are generated at the Sinoatrial (SA) node of the heart and continuously compares number of the generated nerve impulses with a threshold nerve impulse value. If excess impulses are detected, the intelligent monitoring module routes the excess nerve impulses to a battery management module which generates charge by converting the excess nerve impulses to electric charge. This charge may be further used to power up the implantable medical device.

Abstract: Providing relevant knowledge to a user based on the requirements of the user. This invention relates to management of knowledge present with an organization and more particularly to making the knowledge present within an organization available to employees at the right time. The principal object of this invention is to provide a method and system for providing relevant knowledge to a user seamlessly at every specific phase of his/her project development. Another object of the invention is to provide a method and system for providing the relevant knowledge of project phase and technology to a user who is a part of the project, without searching.

Abstract: Mobile devices are used for several purposes other than just communication. Given herein are methods and systems for enabling a mobile device to interface with a medical device, mainly related to patient healthcare monitoring using the mobile device. The mobile can control or interface with a medical device in a deterministic manner through a mobile application. The mobile application module uses the available hardware resources of the mobile device to control or interface with a medical device. This enables the mobile device to fully control or interface with the medical device without any external or internal disturbance.

Abstract: A method and a system for effective and efficient service support provided by the OEM are disclosed. The method provides a Ubiquitous Support Platform (USP) that enables the user or the on-field service personnel to interact with the remote support service centre and/or the R&D teams of the OEM using a mobile device. A secure device or secure software or a programmed NFC tag is integrated in the equipment. The mobile device with audio-video support, communication capability, a mobile software application providing device specific and value added services is disclosed. Thus, the method provides enhanced customer satisfaction and enhanced overall service experience.

Abstract: A method and system for enabling a mobile device to interface with a medical device. The embodiments herein relate to patient healthcare monitoring and, more particularly, to use of a mobile device used in patient healthcare monitoring. The embodiments herein disclose a method and system for a mobile device to control or interface with a medical device in a deterministic manner. The mobile application module uses the hardware resources of the mobile device to control or interface with the medical device. This enables the mobile device to fully control or interface with the medical device without any disturbance.

Abstract: A method and apparatus for troubleshooting a plurality of photosensors in a machine, such as a mail sorter and mail inserter. The troubleshooting procedure is carried out by a software program. As each photosensor comprises a photo-detector and an associated light emitter for illuminating the photo-detector, the test is based on the output voltage of the photo-detector in response to a current value on the light emitter. Based on the two or more current values set to the light emitter and the corresponding measured output voltage values, the software program determines whether the photosensor is functional. If the photosensor is not functional, possible causes and suggested remedies are provided to the operator of the machine.

Abstract: A method and apparatus for troubleshooting a plurality of photosensors in a machine, such as a mail sorter and mail inserter. The troubleshooting procedure is carried out by a software program. As each photosensor comprises a photo-detector and an associated light emitter for illuminating the photo-detector, the test is based on the output voltage of the photo-detector in response to a current value on the light emitter. Based on the two or more current values set to the light emitter and the corresponding measured output voltage values, the software program determines whether the photosensor is functional. If the photosensor is not functional, possible causes and suggested remedies are provided to the operator of the machine.