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once_this_p_edete_mined_time_has_elapsed [2025/10/26 07:00]
carolinetrickett created |
once_this_p_edete_mined_time_has_elapsed [2025/12/05 13:03] (Version actuelle)
carolinetrickett created |
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| (Image: [[https://www.paj-gps.co.uk/wp-content/uploads/2025/07/Live-Tracking-EN-e1753880605937.webp|https://www.paj-gps.co.uk/wp-content/uploads/2025/07/Live-Tracking-EN-e1753880605937.webp]])This invention pertains to containing and monitoring a topic, e.g. an animal, a human, [[https://wikibuilding.org/index.php?title=With_Advancements_In_Wireless_Communication_Technologies|iTagPro tracker]] or an object reminiscent of a automobile, utilizing satellite positioning information and [[http://152.136.187.229/brandonconsidi|iTagPro smart tracker]] more specifically to such a system which uses additional data to enhance the satellite positioning information to improve positioning accuracy. If the pet continues to the boundary, the collar will issue a static correction, hopefully causing the pet to retreat to the containment space. Wireless methods have other limitations based on how they operate. When an outlined low sign level threshold is detected, [[https://bbclinic-kr.com:443/nose/nation/bbs/board.php?bo_table=E05_4&wr_id=327181|iTagPro tracker]] the collar will emit an audible correction and when it crosses an excellent lower threshold, the collar will problem a static correction. Line of Sight (LoS). Because of this, the emitting circle might change into irregular in form primarily based on landscape results and any object between the base station and the collar. This identified phenomenon limits the kinds and [[https://nerdgaming.science/wiki/User:Lona86I357|pet tracking device]] varieties of suitable yards to typically flat and clear areas to maximise the total distance of the circle. | (Image: [[https://cdn.shopify.com/s/files/1/2296/8833/products/FFEDBA9A-C1FD-442B-BAE4-F81A7CC0754D_580x@2x.jpeg?v=1523677325|https://cdn.shopify.com/s/files/1/2296/8833/products/FFEDBA9A-C1FD-442B-BAE4-F81A7CC0754D_580x@2x.jpeg?v=1523677325]])This invention pertains to containing and monitoring a topic, e.g. an animal, a human, or an object resembling a automobile, using satellite positioning knowledge and extra particularly to such a system which makes use of further knowledge to reinforce the satellite positioning data to improve positioning accuracy. If the pet continues to the boundary, the collar will difficulty a static correction, hopefully causing the pet to retreat to the containment area. Wireless methods produce other limitations primarily based on how they operate. When an outlined low sign degree threshold is detected, the collar will emit an audible correction and when it crosses a good lower threshold, the collar will issue a static correction. Line of Sight (LoS). Due to this, the emitting circle may turn out to be irregular in shape primarily based on landscape results and any object between the bottom station and the collar. This recognized phenomenon limits the styles and forms of suitable yards to usually flat and [[https://tinylink.onl/eGDX|iTagPro portable]] clear areas to maximise the total distance of the circle. |
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| (Image: [[https://asset.conrad.com/media10/isa/160267/c1/-/de/002638090PI00/salind-gps-salind-20-4g-gps-tracker-fahrzeugtracker-schwarz-1-st.jpg?x=300&y=300|https://asset.conrad.com/media10/isa/160267/c1/-/de/002638090PI00/salind-gps-salind-20-4g-gps-tracker-fahrzeugtracker-schwarz-1-st.jpg?x=300&y=300]])GPS/other satellite system receivers obtain and lock onto multiple satellites to find out location on earth. Because the satellites are several hundreds of kilometers away, the alerts they emit are subject to interference when traveling by way of earth's environment (ionospheric errors). When the indicators attain earth's floor, even more error [[https://muntinlupacity.gov.ph/transparency_seal150|iTagPro tracker]] is launched by the native surroundings. Trees, buildings, land, and [[https://brogue.wiki/mw/index.php?title=Hardwired_GPS_Tracker|iTagPro tracker]] other objects reflect GPS/other satellite tv for pc system indicators and cause them to propagate in another way. This causes delays and polarization results. Positioning errors of this type are referred to as multipath errors and play a major function in the overall GPS/other satellite tv for pc system error budget. Error [[http://dmnsj.com/bbs/board.php?bo_table=free&wr_id=459504|ItagPro]] corrections are then despatched by the bottom station to the rover/collar to scale back positional error of the collar. RTK system has a stationary reference point and collar reference point and might actively track the distance of the rover from the base station with a excessive degree of accuracy. Additionally, the space from the base station (and [[http://bnclogis.net/board/bbs/board.php?bo_table=free&wr_id=613081|iTagPro tracker]] hence the scale of the containment area) is restricted by LoS and native environmental obstructions. | (Image: [[https://images.freeimages.com/images/large-previews/c93/the-race-1499677.jpg|https://images.freeimages.com/images/large-previews/c93/the-race-1499677.jpg]])GPS/different satellite tv for pc system receivers obtain and lock onto a number of satellites to find out location on earth. Because the satellites are several thousands of kilometers away, the indicators they emit are topic to interference when touring via earth's environment (ionospheric errors). When the alerts attain earth's floor, much more error is introduced by the native environment. Trees, buildings, land, and other objects mirror GPS/other satellite system indicators and cause them to propagate otherwise. This causes delays and polarization results. Positioning errors of this sort are known as multipath errors and play a significant role in the general GPS/different satellite system error funds. Error corrections are then sent by the bottom station to the rover/collar to cut back positional error of the collar. RTK system has a stationary reference point and collar reference point and may actively observe the gap of the rover from the base station with a high degree of accuracy. Additionally, the space from the base station (and hence the scale of the containment space) is limited by LoS and local environmental obstructions. |
| (Image: [[https://cdn.itagpro.com/streamsMigration/thumbnails/58b5b0a5445d3d6b50f1401845cef681.webp|https://cdn.itagpro.com/streamsMigration/thumbnails/58b5b0a5445d3d6b50f1401845cef681.webp]]) | |
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| Moreover, the base needs an unobstructed view of the sky as well as an uninterrupted energy supply to work properly. And, [[https://en.encyclopedia.kz/index.php/Cellphone_Tracking_Laws_And_The_Tracking_Device_Statute|iTagPro locator]] as with the opposite techniques described above, the system is an open loop system and doesn't provide feedback to the owner within the occasion the pet escapes the containment space. GNSS receiver One of the most critical elements is the location and type of antenna used in the GNSS receiver system inside the pet collar. Current location and monitoring collars are poorly architected and designed utilizing sub-par elements and strategies to scale back GNSS errors. Another important side is the GNSS receiver's inability to filter out erroneous indicators. Large and intently spaced buildings in cities type so called "urban canyons" which trigger significant multipath errors that may be upwards of tens and even tons of of meters. Current monitoring collars do not account for such environments and could cause large inaccuracies that misguide pet owners to their pets. In frantic moments, pet owners want accurate technology and strategies to be capable of finding their pets as efficiently as possible. | |
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| | Moreover, [[http://wiki.rumpold.li/index.php?title=Benutzer:SheilaUez950|iTagPro portable]] the bottom needs an unobstructed view of the sky in addition to an uninterrupted power source to work properly. And, as with the other techniques described above, the system is an open loop system and doesn't present feedback to the owner within the occasion the pet escapes the containment space. GNSS receiver One of the most crucial aspects is the location and sort of antenna used within the GNSS receiver system inside the pet collar. Current location and monitoring collars are poorly architected and designed utilizing sub-par elements and techniques to reduce GNSS errors. Another vital side is the GNSS receiver's inability to filter out erroneous signals. Large and intently spaced buildings in cities kind so called "urban canyons" which trigger vital multipath errors that may be upwards of tens or even tons of of meters. Current tracking collars don't account for such environments and may cause massive inaccuracies that misguide pet owners to their pets. In frantic moments, pet house owners want accurate technology and strategies to be able to find their pets as effectively as potential. |
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| FIG. 2 is a perspective view of a stimulus collar in keeping with the invention. FIG. 13 is a diagram depicting a containment space and software of the ray casting based on this invention. FIG. 14 is a stream chart depicting the strategy of correcting GNSS walking errors. FIG. 15 is a top plan view of a containment area incorporating a structure. 10 as soon as a containment space 10 is established and activated, as described in detail beneath, the system will function in a containment mode and make the most of a subset of algorithms and [[http://seoulpetrol.org/bbs/board.php?bo_table=free&wr_id=175733|itagpro tracker]] augmented GNSS positioning info to track the pet and keep it throughout the containment space, [[https://www.njofficefurnituredepot.com/office-etiquette-101/|ItagPro]] which includes safe zone 12 and warning zone 14 . Any space outside of containment area 10 is taken into account to be in out of bounds zone 16 . 30 will issue an audible correction until the pet strikes back into secure zone 12 . | |
| | FIG. 2 is a perspective view of a stimulus collar according to the invention. FIG. 13 is a diagram depicting a containment space and utility of the ray casting according to this invention. FIG. 14 is a circulate chart depicting the tactic of correcting GNSS strolling errors. FIG. 15 is a top plan view of a containment space incorporating a construction. 10 once a containment space 10 is established and activated, as described in detail beneath, the system will function in a containment mode and utilize a subset of algorithms and augmented GNSS positioning information to track the pet and keep it inside the containment space, which includes secure zone 12 and warning zone 14 . Any area outside of containment area 10 is considered to be in out of bounds zone 16 . 30 will situation an audible correction until the pet moves back into safe zone 12 . |
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