Description:TECHNICAL FIELD
[0001] The present disclosure relates generally to a wild animal deterrent apparatus, and particularly, to an effective wild animal deterrent apparatus that incorporates multiple deterrence layers to repel the wild animals effectively.

BACKGROUND
[0002] The wild animal deterrent apparatuses have gained significant popularity due to their non-invasive detection and deterrence capabilities. These apparatuses offer a cost-effective and efficient solution for protecting people, property, and crops from damage caused by wild animals and aim to strike a balance between protecting human interests and minimizing harm to wild animals.
[0003] At present, there are various types of deterrent apparatus available, each with its own approach and effectiveness. One of the types is a physical barrier, which is generally used to create boundaries and prevent the wild animals from accessing the specific areas. Examples include fences, netting, and electric fencing. These barriers physically block animals from entering or damaging an area of interest.
[0004] Another approach to wild animal deterrence involves the use of scare tactics. These tactics generally utilize visual or auditory stimuli to frighten or deter the wild animals from approaching the specific areas. Chemical repellents are also a type of wild animal deterrent apparatuses that emit odors or tastes that are unpleasant to the wild animals. These repellents are available in various forms, including sprays, granules, or electronic diffusers. By utilizing the chemical compounds that are unappealing to the wild animals, the chemical repellents aim to create an environment that discourages their presence.
[0005] However, these existing deterrent apparatus have varying levels of efficacy against the wild animals. The effectiveness of these methods depend on factors such as the species of wild animals, their behavior patterns, and the specific environment in which they are deployed.
[0006] Further, there exist numerous prior arts that disclose different type of wild animal deterrent apparatuses.
[0007] The existing prior art discloses an apparatus for preventing wild animals from trespassing. The apparatus includes a photovoltaic module to convert solar energy into electrical energy and supply the electrical energy required for the system, a sensor unit that operates by receiving the electrical energy from the photovoltaic module and senses approaching of a wild animal, a thermal imaging camera unit to capture the approaching wild animal based on the information received from the sensor unit, a display unit to notify outside world about the approaching wild animal based on the information received from the sensor unit, and a warning and information processing unit to receive information from the sensor unit and perform two main functions, which includes warning the wild animal based on the received information and processing the information for further analysis or action. In an embodiment, the warning and information processing unit further includes a light emission unit to emit light to the wild animal based on the information received from the sensor unit, a communication unit to transmit/receive, to/from the outside, information on the thermal imaging camera unit, the light emission unit, and the ultrasonic vibration generation unit, and a storage unit to store the information on the thermal imaging camera unit, the light emission unit, and the ultrasonic vibration generation unit.
[0008] However, the existing prior art is silent about the wild animal deterrent apparatus which utilizes an invisible laser beam for early warning of the presence of the wild animal in the specific area. Further, there is no mention of using the photoelectric sensors in a straight line path of a range about 80-130m to detect interruption of the laser beam. Further, the prior art doesn’t disclose about movement of the wild animals between two laser pointers. The prior art further doesn’t disclose about a plurality of deterrent lights, a laser trigger system, and one or more camera lenses work in tandem and run with adaptive AI algorithms, that capture, store and process the data. In addition, the prior art is silent about the apparatus is configured to connect to a cloud where a machine learning algorithm is utilized for processing the data including, but not limited to, the wild animal movements, patterns, and types of the wild animal to create a pattern for an impactful light pattern to discourage the wild animal from approaching the specific area, bioacoustic sounds, and the appropriate audio response.
[0009] Therefore, in light of the foregoing discussion, there exists a need to overcome the aforementioned drawbacks, shortcomings, and limitations associated with the conventional wild animal deterrent apparatus.

OBJECTIVES OF THE PRESENT DISCLOSURE

[0010] It is an objective of the present disclosure to provide an efficient and improved wild animal deterrent apparatus that can prevent crop and livestock losses that occur as a result of wild animal attacks and movements into specific land area.
[0011] It is another objective of the present disclosure to provide an invisible laser-based early warning wild animal deterrent apparatus.
[0012] It is yet another objective of the present disclosure to provide a deterrent apparatus that utilizes a first line of defence which utilizes a plurality of deterrent lights that have more efficacy in deterring the wild animals.
[0013] It is yet another objective of the present disclosure to utilizes the plurality of deterrent lights that create an impactful light pattern based on movements, patterns, and types of the wild animal in order to prevent the wild animals from adapting to the light pattern.
[0014] It is yet another objective of the present disclosure to provide a second line of defence by playing a loud bioacoustic sound or an appropriate audio response to deter the wild animal from the specific area and providing a notification to user about the intrusion of the wild animals in the specific area.
[0015] It is yet another objective of the present disclosure to provide the wild animal deterrent apparatus that includes a plurality of components that work together to automate and identify wild animal patterns and movements to reduce crop losses and minimize conflict between humans and the wild animals.
[0016] It is yet another objective of the present disclosure to provide the wild animal deterrent apparatus that is configured to connect to cloud where a machine learning algorithm is utilized for processing the data including, but not limited to, movements, patterns, and types of the wild animal to create a pattern for an impactful light pattern and to generate bioacoustic sounds and the appropriate audio response to discourage the wild animal from approaching the specific area.
[0017] The other objectives, features, and advantages of the present invention will become readily apparent upon further review of the following detailed description of the preferred embodiment as illustrated in the accompanying drawings.

SUMMARY OF THE INVENTION

[0018] The present invention relates to a wild animal deterrent apparatus. The apparatus is powered by solar energy with an additional AC/DC supply. The wild animal deterrent apparatus includes a plurality of deterrent lights that are configured to deter a wild animal away from a specific area. In an embodiment, the plurality of deterrent lights includes light emitting diodes that are placed above the laser trigger system and configured to flash a visually impactful light pattern to discourage the wild animal from approaching the specific area.
[0019] The apparatus further includes a laser trigger system that is configured to create an area of invisible laser beams within the specific area. The laser trigger system comprises two laser pointers placed on two poles at a certain height for creating the area of invisible laser beams. In an embodiment, the laser pointers are placed on the poles at a height below the plurality of deterrent lights.
[0020] The apparatus further includes photoelectric sensors to detect interruptions in the invisible laser beams caused by the movement of wild animal in the specific area. The photoelectric sensors are configured to detect interruptions in the invisible laser beams caused by the movement of the wild animal which has a height greater than position of the laser pointers. In an embodiment, the photoelectric sensors are placed in a straight line path in a range of about 80-130m to detect interruption of the laser beam caused by the wild animal.
[0021] The apparatus further includes a notification module. The notification module is configured to send a notification to a user, about the movement of the wild animal inside the specific area, on interruption of the invisible laser beams by the wild animal. In an embodiment, the notification is sent to the user through at least, a message, a call, and an email on the mobile device of the user when the interruption in the invisible laser beams is detected.
[0022] The apparatus further includes one or more camera lenses. The one or more camera lenses are configured to capture presence of the wild animal. In an embodiment, the one or more camera lenses are configured to capture presence of the wild animal that entered the specific area but do not interrupt the invisible laser beams.
[0023] Thereafter, the apparatus includes one or more speakers. In an embodiment, the one or more speakers are configured to play a loud bioacoustic sound on detecting interruptions in the invisible laser beams due to the movement of the wild animal and an appropriate audio response on capturing the wild animal by the one or more camera lenses.
[0024] In an embodiment, the plurality of deterrent lights, the laser trigger system, the photoelectric sensors, one or more camera lenses, and one or more speakers work in tandem and utilize an adaptive artificial intelligence for capturing, storing, and processing data of the wild animal.
[0025] In an embodiment, the apparatus is configured to connect to cloud which utilizes a machine learning algorithm for processing the data including, but not limited to, the wild animal movements, patterns, and types of the wild animal to create an impactful light pattern and to generate bioacoustic sounds and appropriate audio response to discourage the wild animal from approaching the specific area.
[0026] The present invention further provides a method for deterring wild animal using the wild animal deterrent apparatus. The method includes activating a plurality of deterrent lights for deterring the wild animal from approaching a specific area.
[0027] The method further includes detecting presence of the wild animal within the specific area, by photoelectric sensors, due to interruptions in the invisible laser beams caused by the movement of the wild animal of a height greater than the height of the positions of the laser pointers, in case the plurality of deterrent lights fails to deter the wild animal from approaching the specific area. In another embodiment, the method includes activating one or more camera lenses to capture presence of the wild animal, in case the photoelectric sensors fail to detect presence of the wild animal in the specific area.
[0028] Thereafter, the method includes triggering one or more speakers to play loud bioacoustic sounds to deter the wild animal and sending a notification to a user about the movement of the wild animal inside the specific area. In another embodiment, the method includes triggering the one or more speakers to play appropriate audio response on capturing the wild animal by the one or more camera lenses.
[0029] The foregoing summary is illustrative only and is not intended to be in any way limiting. In addition to the illustrative aspects, embodiments, and features described earlier, further aspects, embodiments, and features will become apparent by reference to the drawings and the following detailed description.

BRIEF DESCRIPTION OF THE DRAWINGS

[0030] The accompanying drawings, which are incorporated herein and constitute a part of this disclosure, illustrate exemplary embodiments, and together with the description, serve to explain the disclosed principles. The same numbers are used throughout the figures to reference like features and components, wherein:
[0031] FIG. 1 depicts a block diagram of a wild animal deterrent apparatus, in accordance with one or more exemplary embodiments of the present disclosure;
[0032] FIG. 2 depicts a block diagram representing connection of the wild animal deterrent apparatus with cloud for processing data received from the wild animal deterrent apparatus, in accordance with one or more exemplary embodiments of the present disclosure; and
[0033] FIG. 3 depicts a flow diagram showing a method for deterring the wild animals using a wild animal deterrent apparatus, in accordance with one or more exemplary embodiments of the present disclosure.

DETAILED DESCRIPTION OF EMBODIMENTS

[0034] In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present disclosure. It will be apparent, however, to one skilled in the art that these specific details are only exemplary and not intended to be limiting. Additionally, it may be noted that the apparatus and/or methods are shown in block diagram form only in order to avoid obscuring the present disclosure. It is to be understood that various omissions and substitutions of equivalents may be made as circumstances may suggest or render expedient to cover various applications or implementations without departing from the spirit or the scope of the present disclosure. Further, it is to be understood that the phraseology and terminology employed herein are for clarity of the description and should not be regarded as limiting.
[0035] Furthermore, in the present description, references to “one embodiment” or “an embodiment” means that a particular feature, structure, or characteristic described in connection with the embodiment is included in at least one embodiment of the present disclosure. The appearance of the phrase “in one embodiment” in various places in the specification does not necessarily refer to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments.
[0036] Further, the terms “a” and “an” used herein do not denote a limitation of quantity, but rather denote the presence of at least one of the referenced items. Moreover, various features are described which may be exhibited by some embodiments and not by others. Similarly, various requirements are described, which may be requirements for some embodiments but not for other embodiments.
[0037] Referring to FIG. 1, a wild animal deterrent apparatus is disclosed, according to an embodiment. The purpose of the wild animal deterrent apparatus is to create an environment or implement measures that discourage wild animals from approaching a specific area. A specific area herein refers to an area of interest that may encompass locations, such as agricultural land, properties, and more. The wild animal deterrent apparatus is configured to be deployed in these specific areas to address the need for deterring wild animals and ensuring the protection of the designated space. For example, the specific area may be an agricultural land where crops are grown. In such cases, the wild animal deterrent apparatus is installed to prevent wild animals from damaging the crops, thereby safeguarding the agricultural yield. Similarly, the specific area may also include other types of properties, such as residential or commercial spaces, where the presence of wild animals may pose risks or cause disturbances. The installation of the deterrent apparatus in these areas helps to discourage wild animals from entering and potentially causing damage or inconvenience.
[0038] It is important to note that the wild animal deterrent apparatus is not limited to a particular number of wild animals and can be effective in deterring multiple animals simultaneously.
[0039] As depicted, the wild animal deterrent apparatus (100) includes a plurality of deterrent lights (102). In an embodiment, the plurality of deterrent lights (102) includes light-emitting diodes (LEDs) that are configured to flash a visually impactful light pattern to discourage the wild animal from approaching a specific area. By utilizing this visual deterrent, the apparatus (100) aims to prevent damage caused by wild animals in the specific area. It is important to note that the specific pattern or intensity of light emitted by the deterrent lights (102) is selected and designed carefully to deter the wild animals effectively. The apparatus (100) further employs a strategy of changing the emitted pattern or intensity of light to avoid the wild animals becoming accustomed to or adapting to the deterrent effect. By introducing variations in the emitted light, the apparatus (100) aims to maintain its effectiveness in deterring wild animals over time. This adaptive approach helps to ensure that the deterrent lights continue to effectively discourage wild animals from entering the specific area.
[0040] The wild animal deterrent apparatus (100) further includes a laser trigger system (104). The laser trigger system (104) is configured to create an area of invisible laser beams within the specific area. In an embodiment, the laser trigger system (104) includes two laser pointers placed on two poles at a certain height for creating the area of invisible laser beams. The height at which the laser pointers are placed depends upon the height of the targeted wild animal. By placing the laser pointers at a height of targeted wild animal, the laser trigger system (104) ensures that the laser beams are interrupted by the targeted wild animals. For example, if the laser pointers are placed at a height corresponding to the average height of an elephant, the height and body mass of the elephant may interrupt the laser beams. In contrast, smaller animals like rabbits or baby wild boars may be able to pass under or through the laser beams without interrupting them.
[0041] The purpose of adjusting the height of the laser pointers is to ensure that the laser beams encounter the targeted wild animals and are effectively interrupted. By aligning the height of the laser pointers with the height of the targeted wild animals, the deterrent apparatus (100) maximizes its ability to deter the wild animals from entering the specific area.
[0042] It is important to consider the size and behavior of the targeted wild animals when determining the appropriate height for placing the laser pointers. Larger animals may require the laser beams to be positioned higher in order for their bodies to interrupt the invisible laser beams, while smaller animals may not need the beams to be as high.
[0043] In an embodiment, the laser trigger system (104) are placed on the pole below the plurality of deterrent lights (102).
[0044] The wild animal deterrent apparatus (100) further includes photoelectric sensors (106). In an embodiment, the photoelectric sensors (106) are configured to detect interruptions in the invisible laser beams caused by movement of the wild animal in the specific area. In an exemplary embodiment, the photoelectric sensors (106) are placed in a straight line path in a range of about 80-130m to detect the interruption of the laser beam caused by the wild animal.
[0045] It is important to note that the photoelectric sensors consist of an emitter that emits light and a receiver that detects the amount of light that arrives after being interrupted or reflected by the sensing object. In the case of the wild animal deterrent apparatus, the photoelectric sensors are designed to detect the interruption of the laser beam caused by the presence of a wild animal within the specific area. The specific placement of the photoelectric sensors in a straight line path within a certain range allows for effective detection of the interruption of the laser beam.
[0046] In an embodiment, the photoelectric sensors (106) are configured to detect interruptions in the invisible laser beams caused by the movement of the wild animal of a height greater than the position of the laser pointers.
[0047] When a wild animal enters the specific area and crosses the path of the invisible laser beams, it causes an interruption in the beams, which is detected by the photoelectric sensors (106). This detection triggers a notification module (108) and activates one or more speakers (110) to play a loud bioacoustic sound to deter the wild animal from the specific area.
[0048] The notification module (108) is configured to send a notification to a user, about the movement of the wild animal inside the specific area, on interruption of the invisible laser beams by the wild animal. In an embodiment, the notification is sent to the user through at least, a message, a call, and an email on the user’s mobile device.
[0049] The wild animal deterrent apparatus (100) further includes one or more camera lenses (110). In an embodiment, the one or more camera lenses (108) are configured to capture the wild animals that do not interrupt the invisible laser beams. For example, the wild animals of height smaller than the position of the laser pointers are unable to interrupt the invisible laser beams.
[0050] It is important to note that these one or more camera lenses (108) provide an additional layer of monitoring and detection of the wild animals. If a wild animal manages to cross the laser beams without interrupting it, then presence of the wild animal is recorded by the camera lenses. The camera lenses are strategically positioned to capture images or video footage of the wild animals within the specific area.
[0051] By capturing presence of the wild animals, the one or more camera lenses (110) provide valuable visual information for monitoring and analysis purposes. The captured images or video footage can be used to identify the types of animals present, their behavior, and their frequency of visits to the specific area. This information can be helpful in understanding the wildlife patterns and making informed decisions regarding the management of the specific area.
[0052] The wild animal deterrent apparatus (100) further includes one or more speakers (112). In an embodiment, the one or more speakers (110) are configured to play a loud bioacoustic sound on detecting interruptions in the invisible laser beams due to the movement of the wild animal or an appropriate audio response on capturing the wild animal by the one or more camera lenses (108).
[0053] In an embodiment, the plurality of deterrent lights (102), the laser trigger system (104), the photoelectric sensors (106), one or more camera lenses (110), and one or more speakers (112) work in tandem and utilize an adaptive artificial intelligence for capturing, storing, and processing data of the wild animal.
[0054] In an embodiment, the wild animal deterrent apparatus (100) is powered by solar energy with an additional AC/DC supply. The primary source of power for the wild animal deterrent apparatus is solar energy. This means that the apparatus utilizes solar panels or other solar energy harvesting devices to convert sunlight into electrical energy. The solar energy collected is then used to power the various components of the apparatus (100).
[0055] To ensure continuous operation and account for situations where solar energy may be insufficient or unavailable, the apparatus is equipped with an additional AC/DC supply. This supply serves as a backup or alternative power source, allowing the apparatus to function even when solar energy is limited or not accessible.
[0056] In an embodiment, the wild animal deterrent apparatus (100) utilizes a Raspberry Pi OS for the apparatus to achieve the objectives.
[0057] The wild animal deterrent apparatus is further configured to connect to a cloud as disclosed in FIG.2.
[0058] Referring to FIG. 2, a block diagram representing a connection of the wild animal deterrent apparatus (100) with the cloud for processing data received from the wild animal deterrent apparatus is disclosed, in accordance with one or more exemplary embodiments of the present disclosure. As depicted, wild animal deterrent apparatus is configured to connect to the cloud, where a machine learning algorithm is utilized to process the data which includes, but not limited to, movements, patterns, and types of the wild animal to create an impactful light pattern and to generate bioacoustic sounds and appropriate audio response to discourage the wild animal from approaching the specific area.
[0059] By connecting to the cloud, the wild animal deterrent apparatus (100) may utilize the power of machine learning algorithms to analyze and interpret the data collected from various sources such as, but not limited to, one or more camera lenses (110), laser trigger system (104), and other sensors integrated into the wild animal deterrent apparatus (100).
[0060] FIG. 3 depicts a method for protecting the wild animal deterrent apparatus, in accordance with one or more exemplary embodiments of the present disclosure.
[0061] The method may be explained in conjunction with the wild animal deterrent apparatus disclosed in FIG.1. In the flow diagram, each block may represent a module, segment, or portion of code, which comprises one or more executable instructions for implementing the specified logical function(s). It should also be noted that in some alternative implementations, the functions noted in the blocks may occur out of the order noted in the drawings.
[0062] For example, two blocks shown in succession in FIG. 3 may be executed substantially concurrently or the blocks may sometimes be executed in the reverse order, depending upon the functionality involved.
[0063] Any process descriptions or blocks in flowcharts should be understood as representing modules, segments, or portions of code that include one or more executable instructions for implementing specific logical functions or steps in the process, and alternate implementations are included within the scope of the example embodiments in which functions may be executed out of order from that shown or discussed, including substantially concurrently or in reverse order, depending on the functionality involved. In addition, the process descriptions or blocks in flow charts should be understood as representing decisions made by a hardware structure such as a state machine. The flow diagram starts at step (302) and proceeds to step (306).
[0064] At step 302, a plurality of deterrent lights (102) are activated for deterring the wild animal from approaching a specific area. These deterrent lights are first line of defense and are designed to discourage animals from approaching the specific area.
[0065] Successively, presence of the wild animal is detected within the specific area, at step 304. In an embodiment, the wild animal of height greater than the position of the laser pointers is detected by photoelectric sensors (106) due to interruptions in the invisible laser beams caused by the body of the wild animal.
[0066] In an embodiment, the plurality of deterrent lights (102) are placed above the laser trigger system (104). It is important to note that the invisible laser beams are present between two poles and act as a further deterrent to prevent animals from entering the specific area, when the plurality of deterrent lights fails to deter the wild animal.
[0067] Thereafter, the one or more speakers (112) are triggered, at step 306, to play loud bioacoustic sounds to deter the wild animal and a notification is sent to a user about the movement of the wild animal inside the specific area.
[0068] To enhance the accuracy and intelligence of the wild animal deterrent apparatus, one or more camera lenses (110) are added to the poles. These one or more camera lenses (110) are configured to capture the presence of the wild animals, in case the photoelectric sensors (106) fail to detect presence of the wild animal in the specific area and triggered the one or more speakers (112) to play appropriate audio response on capturing the wild animal by the one or more camera lenses.
[0069] It has thus been seen that the wild animal deterrent apparatus according to the present invention achieves the purposes highlighted earlier. Such an apparatus can in any case undergo numerous modifications and variants, all of which are covered by the same innovative concept, moreover, all of the details can be replaced by technically equivalent elements. The scope of protection of the invention is therefore defined by the attached claims.

Dated this 28th day of May, 2024

Ankush Mahajan
Agent for the Applicant (IN/PA-1523)
OF CoreIP Legal Services Pvt. Ltd.

, Claims:We Claim:
1. A wild animal deterrent apparatus, the apparatus (100) comprising:
a plurality of deterrent lights (102), wherein the plurality of deterrent lights (102) is configured to deter a wild animal away from a specific area;
a laser trigger system (104), wherein the laser trigger system (104) is configured to create an area of invisible laser beams within the specific area;
photoelectric sensors (106), wherein the photoelectric sensors (106) are configured to detect interruptions in the invisible laser beams caused by movement of wild animal in the specific area;
a notification module (108), wherein the notification module (108) is configured to send a notification to a user, about the movement of the wild animal inside the specific area, on interruption of the invisible laser beams by the wild animal;
one or more camera lenses (110), wherein the one or more camera lenses (108) are configured to capture presence of the wild animal; and
one or more speakers (112), wherein the one or more speakers (110) are configured to play a loud bioacoustic sound on detecting interruptions in the invisible laser beams due to the movement of the wild animal or an appropriate audio response on capturing the wild animal by the one or more camera lenses (108);
wherein the plurality of deterrent lights (102), the laser trigger system (104), the photoelectric sensors (106), one or more camera lenses (110), and one or more speakers (112) work in tandem and utilize an adaptive artificial intelligence for capturing, storing, and processing data of the wild animal.

2. The apparatus (100) as claimed in claim 1, wherein the apparatus is powered by solar energy with an additional AC/DC supply.

3. The apparatus (100) as claimed in claim 1, wherein the apparatus is configured to connect to cloud, where a machine learning algorithm is employed to process the data such as, but not limited to, wild animal movements, patterns, and types to create an impactful light pattern and to generate the bioacoustic sound and the appropriate audio response to discourage the wild animal from approaching the specific area.

4. The apparatus (100) as claimed in claim 1, wherein the plurality of deterrent lights (102) include light emitting diodes that are placed above the laser trigger system (104) and configured to flash a visually impactful light pattern to discourage the wild animal from approaching the specific area.

5. The apparatus (100) as claimed in claim 1, wherein the laser trigger system (104) comprises two laser pointers placed on two poles at a certain height for creating the area of invisible laser beams.

6. The apparatus (100) as claimed in claim 1, wherein the photoelectric sensors are placed in a straight line path in a range of about 80-130m to detect the interruption of the laser beam caused by the wild animal.

7. The apparatus (100) as claimed in claim 1, wherein the photoelectric sensors (106) are configured to detect interruptions in the invisible laser beams caused by the movement of the wild animal of height greater than the position of the laser pointers and the one or more camera lenses (108) are configured to capture presence of the wild animal that do not interrupt the invisible laser beams.

8. The apparatus (100) as claimed in claim 1, wherein the notification is sent to a user through at least one of methods, including a message, a call, and an email on their mobile device.

9. A method (300) for deterring wild animal using a wild animal deterrent apparatus (100) comprising:
activating a plurality of deterrent lights (102) for deterring the wild animal from approaching a specific area;
detecting presence of the wild animal within the specific area, by photoelectric sensors (106), due to interruptions in the invisible laser beams caused by the movement of the wild animal of height greater than position of laser pointers, in case the plurality of deterrent lights fails to deter the wild animal from approaching the specific area; and
triggering one or more speakers (112) to play loud bioacoustic sounds to deter the wild animal and sending a notification to a user about the movement of the wild animal inside the specific area.

10. The method (300) as claimed in claim 9, wherein activating one or more camera lenses (110) to capture presence of the wild animal, in case the photoelectric sensors (106) fail to detect presence of the wild animal in the specific area and triggering the one or more speakers (112) to play appropriate audio response on capturing the wild animal by the one or more camera lenses.
Dated this 28th day of May, 2024

Ankush Mahajan
Agent for the Applicant (IN/PA-1523)
OF CoreIP Legal Services Pvt. Ltd.