The present disclosure is generally related to rifle scopes, and more particularly to rifle scopes including proximity detection.
When multiple hunters are in relatively close proximity, there is always the potential for a gun being fired in the direction of another hunter because the shooter didn't know the other hunter was there, which ultimately can result in an accidental shooting. Furthermore, for safety and security, it is desirable for a hunter to be aware of other hunters in the area, even if they are not in the same hunting party. Unfortunately, conventional firearms do not provide proximity detection.
In an embodiment, a rifle scope includes a receiver configured to receive a signal and a controller coupled to the receiver. The controller is configured to determine a proximity of a second rifle scope based on the signal. In an embodiment, the controller provides a visual indicator to a display of the rifle scope indicating the proximity of the second rifle scope.
In another embodiment, a method includes transmitting a first signal using a transmitter of a rifle scope. The first signal includes first location data corresponding to a physical location of the rifle scope. The method further includes receiving a second signal using a receiver of the rifle scope. The second signal includes second location data corresponding to a physical location of a second rifle scope. Additionally, the method includes determining a proximity of the second rifle scope relative to the first rifle scope based on the first and second location data. In an embodiment, the controller provides a visual indicator to a display of the rifle scope indicating the proximity of the second rifle scope.
In still another embodiment, an apparatus includes a radio frequency receiver configured to receive a signal including location data corresponding to a physical location of a rifle scope and includes a display. The apparatus further includes a controller coupled to the radio frequency receiver and the display. The controller is configured to determine a relative proximity of the rifle scope based on the location data and to provide a visual indicator corresponding to the relative proximity to the display.
In the following discussion, the same reference numbers are used in the various embodiments to indicate the same or similar elements.
Embodiments of a system, method, and apparatus are described below that are configured to provide proximity detection. In an embodiment, an optical device, such as a rifle scope, receives a wireless signal and detects a proximity of another rifle scope in response to receiving the wireless signal. The wireless signal may be received from a proximity detection system through a communications network or from the other rifle scope through the communications network or through an ad hoc communications link. In the following discussion a rifle scope is described; however, it should be appreciated that other devices may be configured to determine a proximity of a rifle scope. Such devices may include binoculars, spotting scopes, smart phones, or other computing devices. Further, it should be appreciated that the optical device may detect the proximity of any number of other hunters based on reception of wireless signals from those other devices. For simplicity, the following discussion describes proximity detection within a rifle scope. An example of a method detecting proximity of another rifle scope is described below with respect to
Advancing to 104, the controller or processor of the first rifle scope provides a warning to a user in response to detecting the other rifle scope. In an example, the warning may be a visual alert provided to a display of the first rifle scope. In another embodiment, the warning may include an audio alert in addition to or in lieu of the visual alert. In an embodiment, the controller may determine proximity of multiple other rifle scopes and may present multiple visual or audio alerts indicating their relative proximity.
In an embodiment, a digital rifle scope includes a display configured to provide images of the view area, which display can be used to present the visual alert. One possible example of a visual alert corresponding to detection of the proximity of another rifle scope is described below with respect to
Proximity warning 210 represents a visual cue or indicator. In this example, proximity warning 210 includes text and a directional indicator 212 that points in a direction corresponding to the location of the other rifle scope relative to the digital rifle scope. In this example, directional indicator 212 points toward the right outside of view area 202. As the user changes the orientation of the rifle scope, such as by shifting the aim point of the rifle scope to the right, a visual parameter of directional indicator 212 and/or proximity warning 210 may change.
In a particular example, the warning may change based on the orientation of the rifle scope relative to the other rifle scope. In an example, orientation sensors within the first rifle scope may be used to determine an aim point of the first rifle scope relative to a location of the other rifle scope. In one embodiment, the controller may cause a visual parameter such as the color or size of a visual indicator to change as the aim point approaches the location of the other rifle scope. In another embodiment, the audio alert may change in tone, frequency, volume or some other audible parameter or in content in response to changes in the proximity. Thus, the first rifle scope provides a warning to a user of the proximity of another hunter.
In an example, signal 320 includes location data corresponding to a physical location of another rifle scope. The location data may include global positioning satellite (GPS) coordinates. Controller 304 may receive location data 314 corresponding to its own physical location and may compare location data 314 to the location data (such as GPS coordinates) received from signal 320 to determine a proximity of rifle scope 302 to a second rifle scope 316. In an embodiment, location data 314 may be received from another electronic device in close proximity to rifle scope 302. In another embodiment, location data 314 is derived internally, for example, from a GPS circuit as described below with respect to
Memory 404 stores wireless communication instructions 408 that, when executed by processor 402, causes processor to receive signal 320 from second rifle scope 316 and to send signal 322, which may be received by second rifle scope 316 and optionally by other wireless transceivers in the wireless signal range of rifle scope 302. Signals 320 and 322 may include location data, such as GPS coordinate data. In an example, signal 320 may include GPS coordinate data corresponding to a physical location of second rifle scope 316, and rifle scope 302 may send its own GPS coordinate data within transmitted signal 322 so that other scopes or devices may utilize the location data to determine proximity information.
Memory 404 further includes proximity detection instructions 410 that, when executed, cause processor 402 to determine a proximity of second rifle scope 316 relative to rifle scope 302 by comparing location data 314 from GPS circuit 406 to location data from signal 320. Memory 404 further includes proximity warning instructions 412 that, when executed, cause processor 402 to provide a visual indicator or visual cue to display 308. The visual indicator or visual cue may include text and/or a directional indicator, such as an arrow or pointer. Further, proximity warning instructions 412 may cause processor 402 to alter a visual parameter of the visual indicator or visual cue as the relative proximity changes. The visual parameter may be a size, shape, or color, for example. Further, altering the visual parameter may include flashing the visual indicator or cue as second rifle scope 316 approaches rifle scope 302. In one possible non-limiting embodiment, rifle scope 302 may include orientation sensors that provide orientation data to processor 402, making it possible for processor 402 to determine if an aim point of rifle scope 302 is toward the location of the second rifle scope 316 and may also alter the visual parameter as the aim point of rifle scope 302 moves toward or away from a position of rifle scope 316, indicating danger as the aim point moves toward the position and indicating relatively safer conditions when the aim point moves way from the position of second rifle scope 316.
In an alternative embodiment, rifle scope 302 may include a speaker (not shown) to produce sound that can be heard by the user. In this example, memory 404 stores instructions that, when executed, cause processor 402 to produce an audio signal for reproduction by the speaker. The audio signal may be used to provide an audible indicator indicating the proximity of second rifle scope 316. The audible indicator may change in tone, frequency, volume or some other audible parameter or in content in response to changes in the proximity.
While the embodiment of
Electronic device 504 may be a portable GPS device, a smart phone, a portable computer, or another electronic device that is configured with GPS circuit 510 and a transmitter, such as transceiver 506, which is configured to send location data 314 to communications interface 502 of rifle scope 302 through the communications channel GPS circuit 510 is coupled to a processor 508, which is coupled to transceiver 506. In an example, processor 508 may be a general purpose processor or may be network interface circuit or other data processing circuit configured to package the location data into a suitable format for transmission by transceiver 506 to rifle scope 302.
In an example, electronic device 504 may utilize GPS circuit 510 to determine GPS coordinates corresponding to a physical location of electronic device 504. The GPS coordinates may then be processed by processor 508 into a data packet or other transmission format (such as an Ethernet frame, a Bluetooth® data format, or some other format) for transmission via transceiver 506 to rifle scope 302. In response to receiving the location data, rifle scope 302 may transmit the location data corresponding to the position of the electronic device 504 as part of signal 322. Such data may be used by a second rifle scope (such as rifle scope 316 in
Additionally, in response to receiving the location data, rifle scope 302 may compare the location data to GPS coordinates (or second location data) received from signal 320 that was transmitted by another device, such as second rifle scope 316. Rifle scope 302 may determine a proximity of second rifle scope 316 based on the comparison and may provide a visual indicator representing the proximity to display 308.
In the above examples, rifle scope 302 and rifle scope 316 may be made by the same manufacturer and may be configured to communicate using a standard protocol or using a proprietary protocol, depending on the implementation. In some embodiments, two rifle scopes may be proximate to one another and may be unable to communicate their location data through short-range wireless interface. In one example, a communications channel may be lost or broken due to the presence of intervening structures or geophysical features. In another example, the two devices may detect signals from one another, but may be unable to establish a communications link (for example, because they are using proprietary protocols). In such examples, rifle scopes may selectively attempt to communicate through a larger communications network. One possible example of a rifle scope configured for multi-path communication is described below with respect to
Rifle scope 608 may include a network interface to communication with communications network 606. In one possible embodiment, a server 604 may be configured to receive the location data from signal 310 and location data from rifle scope 608 and to share such location data by pushing or transmitting location data associated with one or more devices to rifle scope 302 when the one or more devices are close to the physical location of rifle scope 302. In this example, server 604 may be a hunting server corresponding to a game and wildlife department of a state government or may be a third-party proximity warning system server that monitors location data to provide proximity data to rifle scopes (either in response to a query or automatically based on their reported location data) to facilitate proximity detection.
In an embodiment, initial communications between rifle scope 608 and 302 may occur through a short-range wireless signal, such as signals 320 and 322. Through these signals, in addition to proximity data, a communications identifier (such as a phone number, a text message address, or other communication identifier) may be shared so that, if the short-range link is disrupted or lost, rifle scope 302 and 608 may reestablish communication to continue to share location data through communication network 606.
It is to be understood that, even though characteristics and advantages of the various embodiments have been set forth above, together with details of the structure and function of various embodiments, changes may be made in details, especially in the matters of structure and arrangement of parts within principles of the present disclosure to the full extent indicated by the broad meaning of the terms in which the appended claims are expressed. For example, while the description of the embodiments has focused on a rifle scope implementation in which the rifle scope 302 receives the location data from a second rifle scope 316, it is also possible to receive the location data for a rifle scope at an electronic device or apparatus, such as a smart phone executing a proximity detection application, a computing device executing a proximity detection application, or some other electronic apparatus configured to provide proximity detection. Further, it is also possible to detect proximity of multiple other devices. In this example, a short-range transceiver may be used to communicate location data for the apparatus and to receive location data associated with the rifle scope so that the apparatus can provide a warning, for example, to a hiker that there are hunters in the area (and vice versa). Further, the particular components or elements may vary depending on the particular implementation of the proximity detection device while maintaining substantially the same functionality without departing from the scope and spirit of the disclosure. In addition, while the above-discussion focused on providing a visual indicator or visual cue, it will be appreciated by those skilled in the art that the teachings disclosed herein can be carried out using other detectable warnings, such as vibration, audible warnings, and so on. Just as with the visual cue, a parameter of the warning may vary in frequency and/or intensity based on changes in the relative proximity.
Although the present invention has been described with reference to preferred embodiments, workers skilled in the art will recognize that changes may be made in form and detail without departing from the scope of the invention.
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