DESC:FIELD OF INVENTION
[001] The field of invention generally relates to a digital intellicheck device. More specifically, it relates to a system and method for a digital intellicheck device which can be used to verify and manage functions of power tools used in a large-scale set-up by using geolocation tagging.

BACKGROUND
[002] Large scale hardware installations typically include hundreds or thousands of repeating individual hardware units, all of which require to be installed or secured by using power tools. The nature of such large-scale set-up is disadvantageous as they do not allow verification of the installation of each of the numerous hardware units. Hence, it is difficult to track or verify successful installations of the hardware units.
[003] As an example, PV Module fastening is a critical aspect of a PV plant construction process. A typical 100MWp installation would require at least 2-3 Lakh PV modules, which would include a minimum of 10-12 Lakhs fasteners. This enormous quantity of fasteners is currently fastened through ratchet and battery-operated impact wrenches. It is difficult for site managers or operators to verify whether all fastenings have been installed according to required specifications.
[004] Some existing systems have tried to address this problem. However, their scope was limited to providing large devices which are not convenient to use in the installation set-up. Other systems required the use of customized power tools, which increase the cost of installation and also require skilled workers for utilizing the customized power tools.
[005] Thus, in light of the above discussion, it is implied that there is need for a system and method for a system for digital verification, which is reliable and does not suffer from the problems discussed above.

OBJECT OF INVENTION
[006] The principal object of this invention is to provide a system and method for a digital intellicheck device which can be used to verify and manage functions of power tools used in a large-scale set-up by using geolocation tagging.
[007] A further object of the invention is to provide a system and method for a digital intellicheck device which is automated and provides task control over power tools.
[008] Another object of the invention is to provide a system and method for a digital intellicheck device which enables tracking of individual-level hardware units in a large-scale set-up, along with tracking geotags for the same.
[009] Another object of the invention is to provide a system and method for a digital intellicheck device which enables automatic verification of tasks which are successfully completed by a power tool.
[0010] Another object of the invention is to provide a system and method for a digital intellicheck device which enables fault detection of geotagged tasks which are successfully completed by the power tool.
[0011] Another object of the invention is to provide a system and method for a digital intellicheck device which enables expedition of tasks completed by the power tool, and enables tracking and traceability of the same.
[0012] Another object of the invention is to provide a system and method for a digital intellicheck device which enables prevention of human errors.

BRIEF DESCRIPTION OF FIGURES
[0013] This invention is illustrated in the accompanying drawings, throughout which, like reference letters indicate corresponding parts in the various figures.
[0014] The embodiments herein will be better understood from the following description with reference to the drawings, in which:
[0015] Figure 1 depicts/illustrates a system for monitoring installation using intellicheck device, in accordance with an embodiment;
[0016] Figure 2 depicts/illustrates components of the system for monitoring installation using intellicheck device, in accordance with an embodiment;
[0017] Figure 3 illustrates a user interface of the user device, in accordance with an embodiment;
[0018] Figure 4 depicts/illustrates a method for digital verification using the digital intellicheck device, in accordance with an embodiment; and
[0019] Figure 5 depicts/illustrates a method for digital verification using the system comprising the digital intellicheck device, in accordance with an embodiment.

STATEMENT OF INVENTION
[0020] The present invention discloses a system and method for a digital intellicheck device which can be used to verify and manage functions of power tools used in a large-scale set-up by using geolocation tagging.
[0021] The system comprises a hardware unit, a digital intellicheck device, at least one power tool, at least one user device, a server and a communication network.
[0022] The power tools are assigned to complete tasks related to installation and maintenance of the hardware units. A user can utilize the digital intellicheck device to capture unique identification of the hardware unit, and receive a wireless trigger signal from the power tool to indicate completion of the task. The digital intellicheck device is configured to verify the successful completion of the task completed by the user. Thereafter, the digital intellicheck device is configured to record a geographical tag to for the completed task, and share the data comprising geotagged task with one or more user devices and the server.

DETAILED DESCRIPTION
[0023] The embodiments herein and the various features and advantageous details thereof are explained more fully with reference to the non-limiting embodiments that are illustrated in the accompanying drawings and/or detailed in the following description. Descriptions of well-known components and processing techniques are omitted so as to not unnecessarily obscure the embodiments herein. The examples used herein are intended merely to facilitate an understanding of ways in which the embodiments herein may be practiced and to further enable those of skill in the art to practice the embodiments herein. Accordingly, the examples should not be construed as limiting the scope of the embodiments herein.
[0024] The present invention discloses a system and method for a digital intellicheck device which can be used to verify and manage functions of power tools used by using geolocation tagging for monitoring an installation.
[0025] Going forward in the draft, the terms “geolocation tagging” and “geotagging” may be used interchangeably.
[0026] Figure 1 depicts/illustrates a system for monitoring an installation using intellicheck device, in accordance with an embodiment.
[0027] In an embodiment, the system 100 comprises at least one hardware unit 102, a digital intellicheck device 104, at least one power tool 106, at least one user device 108, at least one server 110 and a communication network 112.
[0028] In an embodiment, the hardware unit 102 can be a large scale set up which require the use of the at least one power tool 106 for completing one or more of installation, connection, attachment, fitting, insertion, etc., of the hardware units 102.
[0029] In a particular embodiment explained in the description, the large-scale set-up comprises a solar power installation with a large number of solar modules which represent the hardware units 102. Since each solar panel requires four fasteners, a typical 100MWp solar power installation may comprise at least 2-3 Lakh solar modules, which would altogether comprise a minimum of 10-12 Lakh fasteners.
[0030] The at least one power tool 106 is used to build a hardware installation comprising the at least one hardware unit 102. In an embodiment, the power tool 106 may comprise a hand held or machine held power tool comprising one or more of a fastener, a power drill, a cutter such as a pipe cutter, a sander, a nail gun, a grease gun, a power saw, as well as other power tools known in the art.
[0031] In an embodiment, the digital intellicheck device 104 may be a smart device or a specifically coded hardware box configured to monitor and record the actions of the power tool 106. The digital intellicheck device 104 is further used to monitor the hardware installations by verifying and managing functions of the power tool 106. In case the power tool 106 completes a task, the digital intellicheck device 104 verifies the successful completion of the task and provides geolocation tagging for each of the completed tasks. Further, the digital intellicheck device 104 may also detect faults in the task and share one or more alerts with the user device 108.
[0032] In an embodiment, the user device 108 may comprise one or more of wearable devices, mobile phones, PDA, smartphones, smart band, smart watch, laptop, computer, tablet, etc.
[0033] A user of the power tool 106 may be assigned to complete tasks related to the installation or maintenance of the hardware unit 102. The user can utilize the digital intellicheck device 104 to capture the unique identification of the hardware unit 102. Thereafter, the user may use the power tool 106 to complete the installation/maintenance task at the hardware unit 102. Once the task has been completed, the power tool 106 may share a wireless trigger signal to indicate the completion of the task. The digital intellicheck device 104 is configured to receive the trigger signal and verify the successful completion of the task completed by the user. Thereafter, the digital intellicheck device 104 is configured to record a geographical tag (geo tagging) for the completed task, and share the data comprising geotagged task with the at least one user devices 108 and the at least one server 110.
[0034] Advantageously, the digital intellicheck device 104 does not need to be attached to the power tool 106. The digital intellicheck device 104 may be placed in the range of communication of the power tool 106, in order to receive trigger signals from the power tool 106. Hence, advantageously, the power tool 106 does not need to be customized by attaching any additional components. Additionally, the power tool 106 retains its convenience of use as the user does not need to operate a bulky customized power tool 106. Further, since common power tools 106 comprising a communication unit 210 can be used with the digital intellicheck device 104, the system 100 provides a low-cost, economic solution for the digital verification of installation or maintenance processes in a large-scale set-up comprising a large number of hardware units 102.
[0035] The digital intellicheck device 104 is also configured to record, analyze and/or communicate at least one of: scanned data, audio data, video data, NFC data or RFID data, task data, and one or more user inputs received from the user device 108.
[0036] In such large-scale set-ups, the digital intellicheck device 104 is advantageous as it can be used to scan and record each individual solar module, as well as verify the accuracy of each fastening of the solar module. Further, the digital intellicheck device 104 can record a geotag for each fastening, after which the power tool 106 is allowed to proceed with the next fastening action for the same or the next solar module.
[0037] In an embodiment, the digital intellicheck device 104 is not limited to PV module applications, and can be used in any industrial application where large-scale installation or maintenance activities are carried out through power tools 106, and geolocation data is required to be logged through a trigger signal from a source such as the power tool 106.
[0038] In an embodiment, the server 110 may comprise one or more of physical servers or cloud servers enabled to communicate by using the communication network 112.
[0039] In an embodiment, the communication network 112 comprises wired and wireless communication, including but not limited to, GPS, GSM, LAN, Wi-fi compatibility, Bluetooth low energy as well as NFC. The wireless communication may further comprise one or more of Bluetooth (registered trademark), ZigBee (registered trademark), a short-range wireless communication such as UWB, a medium-range wireless communication such as Wi-Fi (registered trademark) or a long-range wireless communication such as 3G/4G or WiMAX (registered trademark), according to the usage environment.
[0040] In an embodiment, the system 100 may comprise multiple digital intellicheck devices 104, power tools 106, and user devices 108 as required by the user to complete the installations of the multiple hardware units 102 in the large-scale set-up.
[0041] In scenarios where multiple digital intellicheck devices 104, power tools 106, and user devices 108 are used, certain communication protocols may be used to reduce cross-interference of the trigger signals between the digital intellicheck devices 104, and the power tools 106.
[0042] Figure 2 depicts/illustrates components of the system 100 comprising the digital intellicheck device 104, in accordance with an embodiment.
[0043] In an embodiment, the power tool 106 comprises an operating unit 202, an actuating unit 204, a processing unit 206, a memory unit 208, and a communication unit 210.
[0044] In an embodiment, the operating unit 202 comprises a one or more units to enable the functionality of the power tool 106, comprising but not limited to: a fastener unit, a drill unit, a cutter unit, a sander unit, a nail gun unit, a grease gun unit, a power saw unit, as well as other power tool units known in the art.
[0045] In an embodiment, the actuating unit 204 is used to regulate one or more functions of the operating unit 202 such as turn ON, turn OFF, speed regulation, power regulation, torque regulation, no. of rotations, etc. The actuating unit may comprise at least one of a motor, servomotor, actuator, transducer, micromotor, and sensor, among other actuators used in pneumatic or electromechanical power tools 106.
[0046] In an embodiment, the processing unit 206 comprises one or more of microprocessors, circuits, and other hardware configured for processing. The processing unit 206 is configured to execute instructions stored in the memory unit 208 as well as communicate with the digital intellicheck devices 104 the communication unit 210.
[0047] In an embodiment, the memory unit 208 comprises one or more volatile and non-volatile memory components which are capable of storing data and instructions to be executed.
[0048] In an embodiment, the communication unit 210 comprises wired and wireless communication, including but not limited to, GPS, GSM, LAN, Wi-fi compatibility, Bluetooth low energy as well as NFC. The wireless communication may further comprise one or more of Bluetooth (registered trademark), ZigBee (registered trademark), a short-range wireless communication such as UWB, a medium-range wireless communication such as WIFI (registered trademark) or a long-range wireless communication such as 3G/4G or WiMAX (registered trademark), according to the usage environment.
[0049] In an embodiment, upon the completion of a task, the processing unit 206 in the power tool 106 is configured to share one or more trigger signals through the communication unit 210, which will be received by the digital intellicheck device 104.
[0050] Further, the processing tool may receive one or more user instructions related to the task, and may share the user instructions with the actuator unit 204. Thereafter, the actuator unit 204 may modify the function of the operating unit 202 according to the user instructions. Further, upon successful completion of the user instructions, the trigger signal may be transmitted to the digital intellicheck device 104.
[0051] In an embodiment, the digital intellicheck device 104 comprises a verification module 212, a scanning module 214, a location module 218, an input/output module 218, a processing unit 220, a memory unit 222 and a communication unit 224.
[0052] In an embodiment, the verification module 212 is used to record or receive data from one or more of: the hardware unit 102, the power tool 106, the user device 108 and the server 110. The verification module 212 is configured to enable the recording or scanning of the unique identification of each hardware unit 102 by using the scanning module 214. Further, the verification module 212 is configured to receive and analyze trigger signals from the power tool 106 in order to determine whether the task was successfully completed by the power tool 106. Thereafter, the verification module 212 is configured to tag geographical data (geotagging) with the completed task of the recorded hardware unit 102, to create geotagged verified data. Further, the geotagged verified data is shared with one or more of the user devices 108 and the server 110. The verification module 212 is also configured for fault detection related to the tasks completed by the power tool 106. In case a task was found to comprise an error, the verification module 212 may share one or more alerts with at least one of the user devices 108 and the server 110.
[0053] In an embodiment, the scanning module 214 comprises at least one of: QR code/bar code scanner, camera, RFID scanner or reader, NFC scanner or reader, image sensors, CMOS camera, and IR camera, among others. The scanning module 214 may be configured to record and communicate the unique identification and specifications of the hardware unit 102 with other modules of the digital intellicheck device 104 such as the verification module 212.
[0054] The scanning module 214 of the digital intellicheck device 104 may be used to record data from the hardware unit 102, where the hardware unit data comprises at least one of: name, technical specifications, manufacturer, capacity, and efficiency, among others.
[0055] In an embodiment, the location module 218 comprises hardware, software and firmware technologies and modules comprising but not limited to: Global Positioning System (GPS), Global navigation satellite system (GNSS,) Glonass technology, Wi-fi, magnetometer, inertial navigation, altimeter and other related technologies to determine a location of each of the hardware units 102.
[0056] In an embodiment, the input/output module 218 comprises at least one hardware, software and firmware technologies and modules comprising but not limited to: display, speaker, microphone, touchscreen, keyboard, alphanumeric board, buttons, and toggles, among others.
[0057] The processing unit 206 is configured to execute instructions stored in the memory unit 208 as well as communicate with digital intellicheck devices 104 the communication unit 210.
[0058] In an embodiment, the user device 108 comprises a display 226, a digital verification application 228, a processing unit 230, a memory unit 232 and a communication unit 234.
[0059] In an embodiment, the display 226 is connected to an interface module which comprises one or more hardware, software and firmware components for receiving, sharing and displaying data or signal from other devices including the power tool 106 and the digital intellicheck device 104.
[0060] In an embodiment, the digital verification application 228 comprises a user interface enabling a user to monitor all recorded data shared by the digital intellicheck device 104. Further, the digital verification application 228 is configured to receive and share further user inputs or instructions to the digital intellicheck device 104, which are related to the functions of the power tool 106.
[0061] In an embodiment, the digital verification application 228 is configured to create one or more digital geographical maps comprising locations and data of the hardware unit 102 and power tools 106, for enhanced tracking and traceability of the same.
[0062] In an embodiment, the digital verification application 228 is configured to enable the user to frequently monitor the progress of the power tools 106 tasks as well as create and generate progress reports.
[0063] In an embodiment, the processing unit 220 of the digital intellicheck device 104 and the processing unit 230 of the user device 108 may be similar to the processing unit 206 of the power tool 106.
[0064] In an embodiment, the memory unit 222 of the digital intellicheck device 104 and the memory unit 232 of the user device 108 may be similar to the memory unit 208 of the power tool 106.
[0065] In an embodiment, the communication unit 224 of the digital intellicheck device 104 and the communication unit 234 of the user device 108 may be similar to the communication unit 210 of the power tool 106.
[0066] In an embodiment, the server 110 comprises a digital verification platform 236, a processing unit 238, a memory unit 240 and a communication unit 242.
[0067] The digital verification platform 236 may enable multiple users to create and login to user accounts to access data related to their large-scale set-up, such as unique identification data, location data, task data, and geotagged verified data, among others. The digital verification platform 236 may also be enabled to monitor activities and progress of multiple power tools 106 and digital intellicheck devices 104, for large-scale set-ups related to different locations and hardware units 102.
[0068] Figure 3 illustrates a user interface 300 of the user device 108, in accordance with an embodiment. The user interface 300 depicts the hardware unit 102 represented as a Solar module. The geographical location of the hardware unit 102 is depicted, as well as a status of tasks completed by the power tool 106. Further, the user may search for hardware units 102 at different locations and view the status of the tasks of those hardware units 102. Additionally, period reports may be generated and displayed in the user interface 300.
[0069] Figure 4 depicts/illustrates a method 400 for digital verification using the digital intellicheck device, in accordance with an embodiment.
[0070] The method begins with scanning and recording a unique identification of a hardware unit, as depicted at step 402. Subsequently, the method 400 discloses receiving a trigger signal upon successful completion of a task from a power tool, as depicted at step 404. Thereafter, the method 400 discloses verifying a completed task related to the trigger signal, as depicted at step 406. Further, the method 400 discloses tagging and recording geographical data with the completed task, as depicted at step 408. Subsequently, the method 400 discloses creating a digital geographical map of the hardware units, power tools and completed tasks, as depicted at step 410.
[0071] Furthermore, the method 400 discloses displaying and monitoring progress of completed tasks of the power tool, as depicted at step 412.
[0072] Figure 5 depicts/illustrates a method 500 for digital verification using the system comprising the digital intellicheck device, in accordance with an embodiment.
[0073] The method begins with communicating details of completed geotagged tasks with at least one of: a user device and server, as depicted at step 502. Subsequently, the method 500 discloses determining whether all tasks are completed successfully for the scanned hardware unit, as depicted at step 504. Thereafter, the method 500 discloses proceeding to the next hardware unit in the large-scale set-up, as depicted at step 506. A.
[0074] Further, the method 500 discloses monitoring all hardware units and completed tasks on a periodic basis on the user device, as depicted at step 508. Further, the method 500 discloses generating progress reports of all completed tasks on a period basis, as depicted at step 510.
[0075] The advantages of the current invention providing a system and method for a digital intellicheck device which enables automatic verification of tasks which are successfully completed by a power tool.
[0076] Advantageously, the digital intellicheck device enables fault detection of geotagged tasks which are successfully completed by the power tool. Further, the digital intellicheck device enables expedition of tasks completed by the power tool, and enables tracking and traceability of the same.
[0077] Additionally, the digital intellicheck device enables prevention of human errors.
[0078] Applications of the current invention include any large-scale set-up of individual hardware units which requires substantial use of power tools.
[0079] The foregoing description of the specific embodiments will so fully reveal the general nature of the embodiments herein that others can, by applying current knowledge, readily modify and/or adapt for various applications such specific embodiments without departing from the generic concept, and, therefore, such adaptations and modifications should and are intended to be comprehended within the meaning and range of equivalents of the disclosed embodiments.
[0080] It is to be understood that the phraseology or terminology employed herein is for the purpose of description and not of limitation. Therefore, while the embodiments herein have been described in terms of preferred embodiments, those skilled in the art will recognize that the embodiments herein can be practiced with modification within the scope of the embodiments as described here. ,CLAIMS:We claim:
1. A system (100) for monitoring installations using a digital intellicheck device, comprising:
at least one power tool (106) to build a hardware installation wherein the hardware installation comprising one or more of a hardware unit (102); and
the digital intellicheck device (104) configured to monitor the hardware installation by verifying and managing the actions of the power tool (106), wherein the digital intellicheck device (104) comprising:
a verification module (212) configured to enable scanning of one or more unique identification of the hardware unit (102) by using a scanning module (214);
the scanning module (214) configured to record and communicate the one or more unique identification and specification of the hardware unit (102) with the verification module (212) of the digital intellicheck device (104); and
a location module (218) configured to determine a location of each of the hardware units (102);

2. The system (100) as claimed in claim 1, wherein the hardware installation comprises at least one of PV module installation, and other industrial application where large-scale installation and maintenance activities are carried out through power tools (106).

3. The system (100) as claimed in claim 2, wherein the PV module installation is monitored through the system (100) wherein the system is configured to:
assign tasks related to at least one of installation, and maintenance of the hardware unit (102) to a user;
capture the unique identification of the hardware unit (102) by using the digital intellicheck device (104).
complete the at least one of installation, and maintenance task at the hardware unit (102) by using the power tool (106);
share a wireless trigger signal to indicate the completion of the task by using the power tool (106);
receive the trigger signal and verify the successful completion of the task completed by using the digital intellicheck device (104);
record a geographical tag for the completed task by using the digital intellicheck device (104); and
share the data comprising geotagged task with the at least one user device (108) and at least one server (110).

4. The system (100) as claimed in claim 1, wherein the unique identification of the hardware unit (102) comprises at least one of: name, technical specifications, manufacturer, capacity, and efficiency.

5. The system (100) as claimed in claim 1, comprising the user device (108), wherein the user device (108) comprises a digital verification application (228) that comprise a user interface for enabling the user to monitor all recorded data shared by the digital intellicheck device (104).

6. The system (100) as claimed in claim 5, wherein the digital verification application (228) is configured to:
receive and share one or more user inputs to the digital intellicheck device (104), which are related to the functions of the power tool (106);
create one or more digital geographical maps comprising locations and data of the hardware unit (102) and power tools (106), for enhanced tracking and traceability of the same; and
enable the user to frequently monitor the progress of the power tools (106) tasks as well as create and generate progress reports;

7. The system (100) as claimed in claim 1, comprising the server (110), wherein the server (110) comprises a digital verification platform (236) configured to:
enable multiple users to create and login to user accounts to access data related to their large-scale set-up, comprising at least one of: unique identification data, location data, task data, and geotagged verified data; and
monitor activities and progress of multiple power tools (106) and digital intellicheck devices (104), for large-scale set-ups related to different locations and hardware units (102).

8. The system (100) as claimed in claim 1, wherein the digital intellicheck device (104) is configured to record, analyse, and communicate at least one of: scanned data, audio data, video data, NFC data or RFID data, task data, and one or more user inputs received from at least one user device (108).

9. The system (100) as claimed in claim 1, wherein the at least one power tool (106) comprising:
an operating unit (202) that enables the functionality of the power tool (106); and
an actuating unit (204) to regulate one or more functions of the operating unit (202).

10. The system (100) as claimed in claim 8, wherein the operating unit (202) comprises at least one of a fastener unit, a drill unit, a cutter unit, a sander unit, a nail gun unit, a grease gun unit, and a power saw unit;

11. The system (100) as claimed in claim 8, wherein the functions of the operating unit (202) comprise at least one of: turn ON, turn OFF, speed regulation, power regulation, torque regulation, and no. of rotations.

12. The system (100) as claimed in claim 8, wherein the actuating unit (204) comprises at least one of: a motor, servomotor, actuator, transducer, micromotor, and sensor.

13. The system (100) as claimed in claim 8, wherein the actuating unit (204) is configured to modify the function of the operating unit (202) according to one or more user instructions.

14. The system (100) as claimed in claim 1, wherein the verification module (212) is configured to:
record data from one or more of: the hardware unit (102), the power tool (106), the user device (108) and the server (110).
receive and analyse trigger signals from the power tool (106) to determine whether the task was successfully completed by the power tool (106);
tag geographical data with the completed task of the hardware unit (102), to create a geotagged verified data;
detect fault related to the tasks completed by the power tool (106); and
share one or more alerts with at least one of a user device (108) and a server (110) upon fault detection.

15. The system (100) as claimed in claim 1, wherein the scanning module (214) comprises at least one of: QR code/bar code scanner, camera, RFID scanner or reader, NFC scanner or reader, image sensors, CMOS camera, and IR camera.

16. The system (100) as claimed in claim 1, wherein the location module (218) comprises hardware, software and firmware technologies and modules comprising at least one of: Global Positioning System (GPS), Global navigation satellite system (GNSS,) Glonass technology, Wi-fi, magnetometer, inertial navigation, and altimeter.

17. A method (400) for digital verification using the digital intellicheck device, comprising:
scanning and recording a unique identification of a hardware unit (102);
receiving a trigger signal upon successful completion of a task from a power tool (106);
verifying a completed task related to the trigger signal;
tagging and recording geographical data with the completed task;
creating a digital geographical map of the hardware units (102), power tools (106) and completed tasks; and
displaying and monitoring progress of completed tasks of the power tool (106).

18. A method (500) for digital verification using the system comprising the digital intellicheck device, comprising:
communicating details of completed geotagged tasks with at least one of: a user device (108) and a server (110);
determining whether all tasks are completed successfully for the hardware unit (102);
proceeding to the next hardware unit (102) in a hardware installation;
monitoring all hardware units (102) and completed tasks on a periodic basis on the user device (108); and
generating progress reports of all completed tasks on a period basis.

19. The method (500) as claimed in claim 18, comprising the hardware installation, wherein the hardware installation comprises at least one of PV module installation, and other industrial application where large-scale installation and maintenance activities are carried out through power tools (106).

20. The method (500) as claimed in claim 19, comprising configuring the system (100) to monitor PV module installation by:
assigning tasks related to at least one of installation, and maintenance of the hardware unit (102) to a user;
capturing the unique identification of the hardware unit (102) by using the digital intellicheck device (104).
completing the at least one of installation, and maintenance task at the hardware unit (102) by using the power tool (106);
sharing a wireless trigger signal to indicate the completion of the task by using the power tool (106);
receiving the trigger signal and verify the successful completion of the task completed by using the digital intellicheck device (104);
recording a geographical tag for the completed task by using the digital intellicheck device (104); and
sharing the data comprising geotagged task with the at least one user device (108) and at least one server (110).

21. The method (500) as claimed in claim 20, comprising providing the unique identification of the hardware unit (102), wherein the unique identification comprises at least one of: name, technical specifications, manufacturer, capacity, and efficiency.

22. The method (400) as claimed in claim 17, comprising providing a user device (108), wherein the user device (108) comprises a digital verification application (228) that comprise a user interface for enabling the user to monitor all recorded data shared by the digital intellicheck device (104).

23. The method (400) as claimed in claim 22, comprising configuring the digital verification application (228) for:
receiving and sharing one or more user inputs to the digital intellicheck device (104), which are related to the functions of the power tool (106);
creating one or more digital geographical maps comprising locations and data of the hardware unit (102) and power tools (106), for enhanced tracking and traceability of the same;
enabling the user to frequently monitor the progress of the power tools (106) tasks as well as create and generate progress reports;

24. The method (400) as claimed in claim 17, comprising the server (110), wherein the server (110) comprises a digital verification platform (236) configured to:
enabling multiple users to create and login to user accounts to access data related to their large-scale set-up, comprising at least one of: unique identification data, location data, task data, and geotagged verified data; and
monitoring activities and progress of multiple power tools (106) and digital intellicheck devices (104), for large-scale set-ups related to different locations and hardware units (102).

25. The method (400) as claimed in claim 17, comprising configuring the at least one power tool (106) to share one or more trigger signal to indicate the successful completion of a task.

26. The method (400) as claimed in claim 17, comprising configuring the digital intellicheck device (104) to record, analyse, and communicate at least one of: scanned data, audio data, video data, NFC data or RFID data, task data, and one or more user inputs received from at least one user device (108).

27. The method (400) as claimed in claim 17, comprising providing the at least one power tool (106), wherein the at least one power tool (106) comprising:
enabling the functionality of the power tool (106) by using an operating unit (202); and
regulating one or more functions of the operating unit (202) by using an actuating unit (204).

28. The method (400) as claimed in claim 27, comprising providing the operating unit (202), wherein the operating unit (202) comprises at least one of a fastener unit, a drill unit, a cutter unit, a sander unit, a nail gun unit, a grease gun unit, and a power saw unit.

29. The method (400) as claimed in claim 27, comprising providing the functions of the operating unit (202), wherein the operating unit (202) comprises at least one of: turn ON, turn OFF, speed regulation, power regulation, torque regulation, and no. of rotations.

30. The method (400) as claimed in claim 27, comprising providing the actuating unit (204), wherein the actuating unit (204) comprises at least one of: a motor, servomotor, actuator, transducer, micromotor, and sensor.

31. The method (400) as claimed in claim 27, comprising configuring the actuating unit (204) to modify the function of the operating unit (202) according to one or more user instructions.

32. The method (400) as claimed in claim 17, comprising configuring the verification module (212) for:
receiving and analysing trigger signals from the power tool (106) to determine whether the task was successfully completed by the power tool (106);
tagging geographical data with the completed task of the hardware unit (102), to create geotagged verified data;
detects fault related to the tasks completed by the power tool (106); and
sharing one or more alerts with at least one of the user devices (108) and the server (110) upon fault detection.

33. The method (400) as claimed in claim 17, comprising configuring the verification module (212) to record data from one or more of: the hardware unit (102), the power tool (106), the user device (108) and the server (110).

34. The method (400) as claimed in claim 17, comprising providing the scanning module (214), wherein the scanning module (214) comprises at least one of: QR code/bar code scanner, camera, RFID scanner or reader, NFC scanner or reader, image sensors, CMOS camera, and IR camera.

35. The method (400) as claimed in claim 17, comprising providing the location module (218), wherein the location module (218) comprises hardware, software and firmware technologies and modules comprising at least one of: Global Positioning System (GPS), Global navigation satellite system (GNSS,) Glonass technology, Wi-fi, magnetometer, inertial navigation, and altimeter.