KR102623928B1 - Apparatus and method for observing small mammals - Google Patents

Abstract

A small mammal observation device and method are disclosed. A small mammal observation device according to an embodiment of the disclosure includes a food discharge module that discharges food for small mammals around the place where the small mammal observation device is installed, and a food discharge module that sprays a fluorescent substance around the place where the small mammal observation device is installed. It includes a fluorescence spraying module, and an observation recording module that detects and photographs small mammals present in the vicinity of the small mammal observation device while the food is discharged and the fluorescent material is sprayed.

Description

Apparatus and method for observing small mammals}

Embodiments of the present invention relate to small mammal observation techniques.

Small mammals are important components of natural ecosystems, and information on their distribution, behavior, and habitat plays an important role in biodiversity research and conservation. However, it is difficult to prepare sufficient biota data for the mammalian field due to limitations in research methods. In other words, according to the survey guidelines, live capture traps are used during field surveys of small mammals, but there are limits to regularly going out to the field and checking with the annual average survey schedule of 12 days.

Korean Patent Publication No. 10-0538568 (December 23, 2005)

Embodiments of the present invention are intended to provide a small mammal observation device and method that can automatically detect and photograph small mammals.

A small mammal observation device according to an embodiment disclosed is a small mammal observation device installed outdoors, comprising: a food discharge module that discharges food for small mammals around a place where the small mammal observation device is installed; a fluorescence spraying module provided to spray a fluorescent material around a place where the small mammal observation device is installed; and an observation recording module that detects and photographs small mammals present in the vicinity of the small mammal observation device while the food is discharged and the fluorescent material is sprayed.

The observation recording module includes a sensor that detects the movement of a small mammal at a location where the small mammal observation device is installed; UV lighting that irradiates UV light according to a preset lighting event; And it may include a camera provided to photograph small mammals according to a preset photographing event.

The small mammal observation device may further include a communication module that transmits an installation location change signal to an external device when the number of times the movement of the small mammal is detected during a preset period is less than a preset number.

The food discharge module includes a food storage unit provided in the small mammal observation device and storing food; a food discharge unit that discharges a certain amount of food to the outside according to a preset food discharge event; And it may include a food capacity confirmation unit that checks the remaining capacity of food in the food storage unit.

The food discharge unit may discharge a certain amount of food to the outside when the number of motion detections of the small mammal exceeds a preset number of times during a preset period.

The fluorescence injection module includes a fluorescent substance storage unit provided in the small mammal observation device and storing a fluorescent substance; a fluorescent material injection unit provided to spray a certain amount of fluorescent material to the outside according to a preset fluorescent material injection event; and a fluorescent substance capacity confirmation unit that checks the remaining capacity of the fluorescent substance in the fluorescent substance storage unit.

The fluorescent substance injection unit may be provided to spray a certain amount of fluorescent substance to the outside before or after a preset time based on the time when the food is discharged to the outside.

The food discharge unit is provided to discharge food within a preset distance based on the installed point of the small mammal observation device, and the fluorescent substance injection unit is provided to emit a fluorescent material outside the set distance based on the installed point of the small mammal observation device. It can be arranged to spray.

The UV lighting may be configured to convert from standby mode to operating mode to emit UV light when the movement of a small mammal is detected while the fluorescent material is sprayed.

The camera may be configured to change from a standby mode to an operating mode to photograph the small mammal when the movement of the small mammal is detected while the food has been discharged.

A small mammal observation method according to an embodiment disclosed is a small mammal observation method performed in a small mammal observation device installed outdoors, the method comprising: discharging food for the small mammal around a place where the small mammal observation device is installed; Spraying a fluorescent substance around a place where the small mammal observation device is installed; and detecting and photographing small mammals present in the vicinity of the small mammal observation device while the food is discharged and the fluorescent material is sprayed.

The small mammal observation method includes: detecting movement of a small mammal at a location where the small mammal observation device is installed; And if the number of motion detections of the small mammal during a preset period is less than the preset number, the step of transmitting an installation location change signal to an external device may be further included.

In the step of discharging the food, a certain amount of food may be discharged to the outside when the number of motion detections of the small mammal exceeds a preset number of times during a preset period.

In the step of spraying the fluorescent material, a certain amount of the fluorescent material may be sprayed to the outside before or after a preset time based on the time when the food is discharged to the outside.

The step of discharging the food is to discharge the food within a preset distance based on the installed point of the small mammal observation device, and the step of spraying the fluorescent material is to discharge the food based on the installed point of the small mammal observation device. Fluorescent material can be sprayed outside a set distance.

The small mammal observation method includes the steps of converting from standby mode to operating mode and irradiating UV light when the movement of the small mammal is detected while the fluorescent material is sprayed; And when the movement of the small mammal is detected while the food has been discharged, the method may further include converting from a standby mode to an operation mode to photograph the small mammal.

According to the disclosed embodiment, small mammals can be attracted by discharging food near the small mammal observation device, and a fluorescent material is sprayed around the food to coat the small mammal with the fluorescent material, thereby detecting the small mammal through a camera. You will be able to better capture small mammals when filming. In addition, since the process from attracting small mammals to photographing them is done automatically and unmanned, small mammals do not feel uncomfortable and small mammals can be observed well.

1 is a block diagram showing the configuration of a small mammal observation device according to an embodiment of the present invention.
Figure 2 is a diagram schematically showing a state of observing small mammals through a small mammal observation device according to an embodiment of the present invention.
Figure 3 is a flow chart showing a small mammal observation method according to an embodiment of the present invention.
4 is a block diagram illustrating and illustrating a computing environment including a computing device suitable for use in example embodiments.

Hereinafter, specific embodiments of the present invention will be described with reference to the drawings. The detailed description below is provided to provide a comprehensive understanding of the methods, devices and/or systems described herein. However, this is only an example and the present invention is not limited thereto.

In describing the embodiments of the present invention, if it is determined that a detailed description of the known technology related to the present invention may unnecessarily obscure the gist of the present invention, the detailed description will be omitted. In addition, the terms described below are terms defined in consideration of functions in the present invention, and may vary depending on the intention or custom of the user or operator. Therefore, the definition should be made based on the contents throughout this specification. The terminology used in the detailed description is merely for describing embodiments of the present invention and should in no way be limiting. Unless explicitly stated otherwise, singular forms include plural meanings. In this description, expressions such as “comprising” or “comprising” are intended to indicate certain features, numbers, steps, operations, elements, parts or combinations thereof, and one or more than those described. It should not be construed to exclude the existence or possibility of any other characteristic, number, step, operation, element, or part or combination thereof.

Meanwhile, directional terms such as upper side, lower side, one side, other side, etc. are used in relation to the orientation of the disclosed drawings. Since the components of embodiments of the present invention can be positioned in various orientations, the term directional is used for illustrative purposes and is not limiting.

Additionally, terms such as first and second may be used to describe various components, but the components should not be limited by the terms. The above terms may be used for the purpose of distinguishing one component from another component. For example, a first component may be referred to as a second component, and similarly, the second component may also be referred to as a first component without departing from the scope of the present invention.

Figure 1 is a block diagram showing the configuration of a small mammal observation device according to an embodiment of the present invention, and Figure 2 schematically shows a state of observing small mammals through a small mammal observation device according to an embodiment of the present invention. It is a drawing.

Referring to FIGS. 1 and 2 , the small mammal observation device 100 may include an observation recording module 102, a food discharge module 104, a fluorescence injection module 106, and a communication module 108.

The small mammal observation device 100 is a device for observing small mammals (e.g., rodents, etc.) in the wild, and is located in a place where small mammals usually move or live in the wild (e.g., a burrow or a rock crevice, etc.). It can be installed and arranged to observe small mammals. The small mammal observation device 100 may include a housing (not shown) that constitutes the exterior. The housing (not shown) may be made of a waterproof material. Additionally, the housing (not shown) may be camouflaged so that small mammals do not feel uncomfortable. The housing (not shown) may be provided in various forms depending on the location where the small mammal observation device 100 is installed or the size and shape of the components of the small mammal observation device 100.

The observation recording module 102 can detect small mammals and photograph small mammals. The observation recording module 102 may store shooting information (eg, photos or videos) of small mammals. The observation recording module 102 may include a sensor 102a, a UV light 102b, and a camera 102c.

The sensor 102a may be a sensor that detects the movement of a small mammal. The sensor 102a may count the number of times the small mammal's movement is detected during a preset period.

UV lighting 102b may be provided to irradiate UV light. The UV light 102b may normally be in a standby mode and then converted to an operation mode to emit UV light when a preset lighting event occurs. In one embodiment, when the movement of a small mammal is detected (i.e., a lighting event occurs) while a fluorescent material is sprayed, the UV light 102b may be converted to an operation mode to radiate UV light to the front.

Camera 102b may be arranged to photograph small mammals. The camera 102b can normally be in standby mode and then switch to the operation mode when a preset shooting event occurs to capture the front view. In one embodiment, the camera 102b may be configured to photograph the small mammal by switching to an operation mode when the movement of the small mammal is detected (i.e., a shooting event occurs) while the food is discharged.

In one embodiment, camera 102b may be a UV camera. In this case, the camera 102b can capture and photograph small mammals well while the UV light 102b is in operation. That is, when a small mammal is covered with a fluorescent substance and the UV light 102b is radiating UV light to the front, the camera 102b better captures the small mammal through the fluorescent substance attached to the small mammal. You can take pictures. When an object called a small mammal is detected, the camera 102b may be configured to rotate and tilt to track the movement of the small mammal and take pictures. The shooting information of the camera 102b may be stored in a memory provided in the small mammal observation device 100.

The food discharge module 104 can discharge food for small mammals. Food for small mammals may include seeds, berries, or nuts that small mammals enjoy, such as peanuts. Food discharged near the small mammal observation device 100 may serve to attract small mammals. The food discharge module 104 may include a food storage unit 104a, a food discharge unit 104b, and a food capacity confirmation unit 104c.

The food storage unit 104a may include a storage box for storing food. A storage box may be provided inside the small mammal observation device 100 to store a certain amount of food. The food storage unit 104a may be provided to deliver food to the food discharge unit 104b.

The food discharge unit 104b may be provided to discharge a certain amount of food to the outside. The food discharge unit 104b may discharge food to be sprinkled on the ground near the small mammal observation device 100. The food discharge unit 104b may be provided at a certain height or higher from the ground, but is not limited thereto.

The food discharge unit 104b may discharge a certain amount of food to the outside according to a preset food discharge event. For example, the food discharge unit 104b may discharge a certain amount of food to the outside when the number of times it detects the movement of a small mammal exceeds a preset number. Additionally, the food discharge unit 104b may discharge a certain amount of food to the outside when a preset time elapses from the time the small mammal observation device 100 is installed.

The food capacity confirmation unit 104c can check the remaining capacity of food in the food storage unit 104a. In one embodiment, the food capacity confirmation unit 104c may be provided to check the remaining capacity of the food by measuring the weight of the food in the food storage unit 104a. The food capacity confirmation unit 104c may generate a food shortage alarm when the remaining capacity of food in the food storage unit 104a falls below a preset threshold.

The fluorescence spray module 106 may be provided to spray a fluorescent material. Fluorescent substances could be used to better detect small mammals. The fluorescence injection module 106 may include a fluorescent material storage unit 106a, a fluorescent material injection unit 106b, and a fluorescent material capacity confirmation unit 106c.

The fluorescent material storage unit 106a may include a storage box for storing the fluorescent material. A storage box may be provided inside the small mammal observation device 100 to store a certain amount of fluorescent material. The fluorescent material storage unit 106a may be provided to deliver the fluorescent material to the fluorescent material injection unit 106b.

The fluorescent material injection unit 106b may be provided to spray a certain amount of fluorescent material to the outside. The fluorescent material injection unit 106b may be configured to spray a certain amount of fluorescent material to the outside according to a preset fluorescent material injection event. For example, the fluorescent substance injection unit 106b may be arranged to spray a certain amount of fluorescent substance to the outside before or after a preset time based on the time when the food is discharged to the outside.

The fluorescent material injection unit 106b may be provided to spray the fluorescent material around the area where the food is discharged and sprayed. In this case, small mammals that come to eat become exposed to fluorescent substances while eating. In one embodiment, the food discharge unit 104b may be provided to discharge food within a preset distance based on the small mammal observation device 100. In addition, the fluorescent material injection unit 106b may be provided to spray the fluorescent material outside a preset distance based on the small mammal observation device 100.

The fluorescent substance capacity confirmation unit 106c may check the remaining capacity of the fluorescent substance in the fluorescent substance storage unit 106a. In one embodiment, the fluorescent material capacity confirmation unit 106c may check the remaining capacity of the fluorescent material by measuring the weight of the fluorescent material in the fluorescent material storage unit 106a. The fluorescent material capacity confirmation unit 106c may generate a fluorescent material shortage alarm when the remaining capacity of the fluorescent material in the fluorescent material storage section 106a is below a preset threshold.

The communication module 108 may be provided to communicate with an external device (not shown) provided remotely from the small mammal observation device 100 (for example, a server or an administrator terminal, etc.). The communication module 108 may be provided to communicate with an external device through a communication network. Here, the communications network may include the Internet, one or more local area networks, wide area networks, cellular networks, mobile networks, other types of networks, or a combination of these networks. .

The communication module 108 may transmit an installation location change signal to an external device when the number of motion detections of small mammals during a preset period is less than a preset number. That is, the communication module 108 may transmit an installation location change signal to an external device to change the installation location of the small mammal observation device 100 when small mammals do not appear easily.

The communication module 108 may transmit the shooting information of the observation recording module 102 to an external device. In one embodiment, the communication module 108 may transmit the shooting information of the observation recording module 102 to an external device according to a preset cycle, but this is not limited to this, and the shooting information of the observation recording module 102 may be transmitted to an external device. If the set data amount is exceeded, it can be transmitted to an external device.

When a food shortage alarm occurs in the food discharge module 104, the communication module 108 may transmit a food shortage alarm to an external device. Additionally, when a fluorescent material shortage alarm occurs in the fluorescence injection module 106, the communication module 108 may transmit a fluorescent material shortage alarm to an external device.

According to the disclosed embodiment, small mammals can be attracted by discharging food near the small mammal observation device 100, and a fluorescent material is sprayed around the food to coat the small mammal with the fluorescent material, through a camera. When photographing small mammals, you will be able to capture them better. In addition, since the process from attracting small mammals to photographing them is done automatically and unmanned, small mammals do not feel uncomfortable and small mammals can be observed well.

In this specification, a module may mean a functional and structural combination of hardware for carrying out the technical idea of the present invention and software for driving the hardware. For example, the “module” may mean a logical unit of a predetermined code and hardware resources for executing the predetermined code, and does not necessarily mean a physically connected code or a single type of hardware.

Figure 3 is a flowchart showing a method for observing small mammals according to an embodiment of the present invention. In the illustrated flow chart, the method is divided into a plurality of steps, but at least some of the steps are performed in a different order, combined with other steps, omitted, divided into detailed steps, or not shown. One or more steps may be added and performed.

Referring to FIG. 3, the small mammal observation device 100 can detect the movement of the small mammal through the sensor 102a (S 101). That is, the small mammal observation device 100 can detect the movement of small mammals at a location where the small mammal observation device 100 is installed.

Next, the small mammal observation device 100 may check whether the number of motion detections of the small mammal during a preset period is greater than or equal to the preset number (S 103).

As a result of step S 103, if the number of motion detections of the small mammal during the preset period is more than the preset number, the small mammal observation device 100 determines that a food discharge event has occurred and dispenses a certain amount of food through the food discharge unit 104b. The food can be discharged to the outside (S 105). At this time, the small mammal observation device 100 can ensure that food is discharged within a preset distance.

Next, the small mammal observation device 100 may spray a fluorescent substance around the area where the food is discharged and sprinkled (S 107). In one embodiment, the small mammal observation device 100 may spray a fluorescent material outside a preset distance where food is discharged.

Next, when the movement of a small mammal is detected, the small mammal observation device 100 determines that a lighting event has occurred and converts the mode of the UV light 102b from standby mode to operation mode to radiate UV light to the front. (S 109).

Next, the small mammal observation device 100 can capture small mammals by converting the mode of the camera 102b from the standby mode to the operating mode (S 111). The small mammal observation device 100 can transmit shooting information to an external device or store it in memory.

Meanwhile, as a result of confirmation in step S 103, if the number of motion detections of the small mammal during the preset period is less than the preset number, the small mammal observation device 100 may transmit an installation location change signal to an external device (S 113). .

FIG. 4 is a block diagram illustrating and illustrating a computing environment 10 including computing devices suitable for use in example embodiments. In the illustrated embodiment, each component may have different functions and capabilities in addition to those described below, and may include additional components in addition to those described below.

The illustrated computing environment 10 includes a computing device 12 . In one embodiment, computing device 12 may be a small mammal viewing device 100.

Computing device 12 includes at least one processor 14, a computer-readable storage medium 16, and a communication bus 18. Processor 14 may cause computing device 12 to operate in accordance with the example embodiments noted above. For example, processor 14 may execute one or more programs stored on computer-readable storage medium 16. The one or more programs may include one or more computer-executable instructions, which, when executed by the processor 14, cause computing device 12 to perform operations according to example embodiments. It can be.

Computer-readable storage medium 16 is configured to store computer-executable instructions or program code, program data, and/or other suitable form of information. The program 20 stored in the computer-readable storage medium 16 includes a set of instructions executable by the processor 14. In one embodiment, computer-readable storage medium 16 includes memory (volatile memory, such as random access memory, non-volatile memory, or an appropriate combination thereof), one or more magnetic disk storage devices, optical disk storage devices, flash It may be memory devices, another form of storage medium that can be accessed by computing device 12 and store desired information, or a suitable combination thereof.

Communication bus 18 interconnects various other components of computing device 12, including processor 14 and computer-readable storage medium 16.

Computing device 12 may also include one or more input/output interfaces 22 and one or more network communication interfaces 26 that provide an interface for one or more input/output devices 24. The input/output interface 22 and the network communication interface 26 are connected to the communication bus 18. Input/output device 24 may be coupled to other components of computing device 12 through input/output interface 22. Exemplary input/output devices 24 include, but are not limited to, a pointing device (such as a mouse or trackpad), a keyboard, a touch input device (such as a touchpad or touch screen), a voice or sound input device, various types of sensor devices, and/or imaging devices. It may include input devices and/or output devices such as display devices, printers, speakers, and/or network cards. The exemplary input/output device 24 may be included within the computing device 12 as a component constituting the computing device 12, or may be connected to the computing device 12 as a separate device distinct from the computing device 12. It may be possible.

Although representative embodiments of the present invention have been described in detail above, those skilled in the art will understand that various modifications can be made to the above-described embodiments without departing from the scope of the present invention. . Therefore, the scope of the present invention should not be limited to the described embodiments, but should be determined not only by the claims described later but also by equivalents to the claims.

10: Computing environment
12: Computing device
14: processor
16: computer-readable storage medium
18: communication bus
20: Program
22: input/output interface
24: input/output device
26: Network communication interface
100: Small mammal observation device
102: Observation recording module
102a: sensor
102b: UV lighting
102c: Camera
104: Food discharge module
104a: Food storage unit
104b: food discharge unit
104c: Feed capacity confirmation unit
106: Fluorescence injection module
106a: Fluorescent material storage unit
106b: Fluorescent material injection unit
106c: Fluorescent material capacity confirmation unit
108: Communication module

Claims (15)

A small mammal observation device installed outdoors,
a food discharge module that discharges food for small mammals around a place where the small mammal observation device is installed;
a fluorescence spraying module provided to spray a fluorescent material around a place where the small mammal observation device is installed; and
A small mammal observation device comprising an observation and recording module that detects and photographs small mammals present in the vicinity of the small mammal observation device while the food is discharged and the fluorescent material is sprayed.
In claim 1,
The observation recording module,
A sensor that detects movement of small mammals at a location where the small mammal observation device is installed;
UV lighting that irradiates UV light according to a preset lighting event; and
A small mammal observation device comprising a camera configured to photograph small mammals according to a preset photographing event.
In claim 2,
The small mammal observation device,
A small mammal observation device further comprising a communication module that transmits an installation location change signal to an external device when the number of motion detections of the small mammal during a preset period is less than the preset number.
In claim 2,
The food discharge module,
a food storage unit provided in the small mammal observation device and storing food;
a food discharge unit that discharges a certain amount of food to the outside according to a preset food discharge event; and
A small mammal observation device comprising a food capacity confirmation unit that checks the remaining capacity of food in the food storage unit.
In claim 4,
The food discharge part,
A small mammal observation device that discharges a certain amount of food to the outside when the number of movements of small mammals detected during a preset period exceeds a preset number.
In claim 4,
The fluorescence injection module,
a fluorescent substance storage unit provided in the small mammal observation device and storing a fluorescent substance;
a fluorescent material injection unit provided to spray a certain amount of fluorescent material to the outside according to a preset fluorescent material injection event; and
A small mammal observation device comprising a fluorescent substance capacity confirmation unit that checks the remaining capacity of the fluorescent substance in the fluorescent substance storage unit.
In claim 6,
The fluorescent material injection unit,
A small mammal observation device provided to spray a certain amount of fluorescent material to the outside before or after a preset time based on the time when the food is discharged to the outside.
In claim 6,
The food discharge unit is provided to discharge food within a preset distance based on the installed point of the small mammal observation device,
The fluorescent material injection unit is provided to spray the fluorescent material outside the set distance based on the installed point of the small mammal observation device.
In claim 2,
The UV light is provided to convert from standby mode to operating mode to irradiate UV light when the movement of a small mammal is detected while the fluorescent material is sprayed,
The camera is configured to change from standby mode to operating mode to photograph the small mammal when the movement of the small mammal is detected while the food has been discharged.
A small mammal observation method performed in a small mammal observation device installed outdoors, comprising:
discharging food for small mammals around a place where the small mammal observation device is installed;
Spraying a fluorescent material around a place where the small mammal observation device is installed; and
A method for observing small mammals, comprising the step of detecting and photographing small mammals present in the vicinity of the small mammal observation device while the food is discharged and the fluorescent material is sprayed.
In claim 10,
The small mammal observation method is,
Detecting movement of a small mammal at a location where the small mammal observation device is installed; and
A small mammal observation method further comprising transmitting an installation location change signal to an external device when the number of motion detections of the small mammal during a preset period is less than the preset number.
In claim 11,
The step of discharging the food is,
A small mammal observation method in which a certain amount of food is discharged outside when the number of motion detections of small mammals exceeds a preset number during a preset period.
In claim 12,
The step of spraying the fluorescent material is,
A small mammal observation method in which a certain amount of fluorescent material is sprayed to the outside before or after a preset time based on the time when the food is discharged to the outside.
In claim 13,
In the step of discharging the food, the food is discharged within a preset distance based on the installed point of the small mammal observation device,
The step of spraying the fluorescent material includes spraying the fluorescent material outside the set distance based on the installed point of the small mammal observation device.
In claim 13,
The small mammal observation method is,
When the movement of a small mammal is detected while the fluorescent material is sprayed, converting from standby mode to operating mode and irradiating UV light; and
When the movement of the small mammal is detected while the food is discharged, the small mammal observation method further includes converting from standby mode to operating mode to photograph the small mammal.