EP4305545A1 - Dispositif de balayage annulaire ergonomique et interactif, et applications associées - Google Patents

Dispositif de balayage annulaire ergonomique et interactif, et applications associées

Info

Publication number
EP4305545A1
EP4305545A1 EP22738769.3A EP22738769A EP4305545A1 EP 4305545 A1 EP4305545 A1 EP 4305545A1 EP 22738769 A EP22738769 A EP 22738769A EP 4305545 A1 EP4305545 A1 EP 4305545A1
Authority
EP
European Patent Office
Prior art keywords
scanner device
finger
loop
scanner
hand
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Pending
Application number
EP22738769.3A
Other languages
German (de)
English (en)
Inventor
Patrick Dutt
Sam PYO
John Broderick
John Vargas
Jeffrey Scott
Brad Schuran
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Infinite Peripherals Inc
Original Assignee
Infinite Peripherals Inc
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Priority claimed from US17/330,110 external-priority patent/US11288474B1/en
Priority claimed from US17/330,090 external-priority patent/US11397866B1/en
Priority claimed from US17/330,125 external-priority patent/US11620468B2/en
Application filed by Infinite Peripherals Inc filed Critical Infinite Peripherals Inc
Priority claimed from PCT/US2022/030944 external-priority patent/WO2022251374A1/fr
Publication of EP4305545A1 publication Critical patent/EP4305545A1/fr
Pending legal-status Critical Current

Links

Classifications

    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K7/00Methods or arrangements for sensing record carriers, e.g. for reading patterns
    • G06K7/10Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
    • G06K7/10544Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation by scanning of the records by radiation in the optical part of the electromagnetic spectrum
    • G06K7/10821Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation by scanning of the records by radiation in the optical part of the electromagnetic spectrum further details of bar or optical code scanning devices
    • G06K7/10881Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation by scanning of the records by radiation in the optical part of the electromagnetic spectrum further details of bar or optical code scanning devices constructional details of hand-held scanners
    • G06K7/10891Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation by scanning of the records by radiation in the optical part of the electromagnetic spectrum further details of bar or optical code scanning devices constructional details of hand-held scanners the scanner to be worn on a finger or on a wrist
    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06KGRAPHICAL DATA READING; PRESENTATION OF DATA; RECORD CARRIERS; HANDLING RECORD CARRIERS
    • G06K7/00Methods or arrangements for sensing record carriers, e.g. for reading patterns
    • G06K7/10Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation
    • G06K7/10544Methods or arrangements for sensing record carriers, e.g. for reading patterns by electromagnetic radiation, e.g. optical sensing; by corpuscular radiation by scanning of the records by radiation in the optical part of the electromagnetic spectrum

Definitions

  • This field is generally related to scanning devices.
  • Optical labels such as barcodes
  • linear or one-dimensional (ID) barcodes can represent data by varying the widths and spacing of parallel lines.
  • Another type of barcode known as matrix codes or two-dimensional (2D) barcodes, uses rectangles, dots, hexagons and other patterns to represent data.
  • Barcodes have many applications. In stores, universal product code (UPC) barcodes are pre-printed on most items and are used for inventory and to check out. Barcodes are used in healthcare and hospital settings, for things like patient identification (to access patient data, including medical history, drug allergies, etc.). They can also be used to keep track of objects and people; they are used to keep track of rental cars, airline luggage, nuclear waste, registered mail, express mail and parcels. Barcoded tickets allow the holder to enter sports arenas, cinemas, theatres, fairgrounds, and transportation, and are used to record the arrival and departure of vehicles from rental facilities etc.
  • UPC universal product code
  • a barcode reader is an optical scanner that can read printed barcodes, decode the data contained in the barcode and send the data to a computer.
  • One type of handheld scanner is gripped in a user’s palm. With these handheld barcode scanners, the user encloses the handle with all five fingers and uses the trigger button to activate the scanner, like the operation of a handgun.
  • One downside of the handheld barcode scanners is that the user of the scanner has to put down the scanner to use his hand. If the user is transporting packages or taking inventory having to repeatedly put down and pick up the scanner can result in lost productivity.
  • ring scanners operate by looping around at least one finger, enabling an operator to continue using both hands while carrying the scanner. In this way, workers can continue to use both hands when climbing ladders or stairs, handling large items, or operating machinery.
  • Figure 1 One such ring scanner is illustrated in Figure 1.
  • FIG. 1 shows a diagram 100 that illustrates a ring scanner 104 being held by hand 102.
  • Ring scanner 104 includes a barcode scanner 106 and a button 114.
  • Button 114 is positioned to be selected by a thumb 112 of hand 102.
  • Ring scanner 104 has a loop (not shown) through which an index finger and middle finger of hand 102 pass through. With the index finger and middle finger of hand 102 through the loop of ring scanner 104, barcode scanner 106 rests on top of the index and middle fingers of hand 102.
  • ring scanner 104 is oriented to capture a barcode
  • barcode scanner 106 projects light 108 to read barcode 106.
  • barcode 106 is a one-dimensional barcode.
  • hand 102 is pronated, that is, a palms-down position with thumb 112 pointed inward toward the body.
  • thumb 112 pointed inward toward the body.
  • the user To orient hand 102 in pronation, the user must twist its forearm 118. Repeated or excessive pronation can lead to fatigue, discomfort, pain and eventually injury.
  • prior art ring scanner 104 lacks capabilities beyond the ability to scan data.
  • a secondary device 110 is strapped to the user’s forearm 118 and is connected to the ring scanner 104 using a cable 120.
  • having a secondary device 110 attached to a user’s forearm adds bulk and discomfort.
  • ring scanners are not even connected to such secondary devices. If output is needed for the operator, it may be presented in a separate screen that the operator might not even be viewing.
  • a postage worker may be scanning packages and some subset of those packages may be flagged for the postage worker to take aside for further inspection.
  • An embodiment provides an interactive scanner device.
  • the interactive scanner device include a processing device, display, optical detector, loop, scan button, first and second programmable buttons, and housing.
  • the display is coupled to the processing device and is configured to output data from the processing device to a user of the scanner device.
  • the optical detector configured to read an optical label.
  • the loop configured is to at least partially encircle at least one finger of a hand of a user of the scanner such that the entire scanner device is able to be gripped by the at least one finger.
  • the scan button is configured to control the optical scanner and positioned on the scanner to be selected by a thumb of the hand.
  • the first and second programmable buttons are configured to input data to the processing device and positioned on the scanner to be selected by the thumb of the hand.
  • the housing is affixed to the loop and configured to enclose internal mechanisms of the processing device, the display, the optical detector, and the first and second buttons.
  • the processing device is configured to execute an interactive application that updates the display responsive to the data
  • Another embodiment provides a non-transitory, tangible computer-readable device having instructions stored thereon that, when executed by at least one computing device, causes the at least one processing to perform operations to control a ring scanner.
  • the ring scanner including a display, an optical detector, a first button, a second button, and a housing.
  • the housing is configured to enclose internal mechanisms of the processing device, the display, the optical detector, and the first and second buttons.
  • the instructions include instructions (i) to receive a first input from the first button, the first button being positioned on the scanner to be selected by a thumb of the hand, (ii) to receive a second input from the second button, the first button being positioned on the scanner to be selected by a thumb of the hand, (iii) to cause the display to output data from the processing device to a user of the scanner device, the third instruction updating the display responsive to the second input, and (iv) to cause the optical detector configured to an optical label responsive to the first input.
  • the ring scanner device includes an optical detector, a loop, and a body piece.
  • the optical detector is positioned on the scanner device read an optical label.
  • the loop is configured to be gripped by at least one finger of a hand of a user.
  • the body piece includes an upper body portion affixed to the optical detector and the loop such that, when at least one finger grips the loop and the hand is in a neutral position, the body piece is positioned to rest on a portion of an index finger of the hand, the portion facing a thumb of the hand.
  • the charging cradle assembly includes a vertical back panel and a cradle protruding from the vertical back panel.
  • the cradle is configured to electrically couple with a ring scanner device.
  • Yet another embodiment provides a scanner device able to be remotely managed.
  • the scanner device includes a processor, network interface, optical detector, input device, display and memory.
  • the network interface is coupled to the processor.
  • the optical detector is configured to read an optical label.
  • the input device is configured to allow a user of the scanner device to input data.
  • the display coupled to the processing device, is configured to output data from the processing device to a user of the scanner device.
  • the memory is coupled to the processor and has instructions stored thereon.
  • the instructions include an application and an application manager.
  • the application specifies operations that, when executed by the processor, update the display responsive to the data input from the input device.
  • the application manager that, when executed by the processor, is configured to receive, via the network interface and from a remote server, an updated application and to install the application to update the operations.
  • the system includes a processor, device database, and device management server.
  • the device database that registers the ring scanner device.
  • the ring scanner device includes an optical detector configured to read an optical label, an input device configured to allow a user of the scanner device to input data, a display configured to output data from the processing device to a user of the scanner device and an application specifying operations that, when executed by ring scanner device, update the display responsive to the data input from the input device.
  • the device management server is executed on the processor and coupled to the device database and is remote from the ring scanner device.
  • the device management server is configured to send an updated application to ring scanner device for installation to update the operations
  • Figure l is a diagram illustrating a prior art ring scanner in operation.
  • Figures 2A and 2B are diagrams illustrating a ring scanner in operation, according to an embodiment.
  • Figures 3 A-C are schematic diagrams illustrating the ring scanner in greater detail, according to an embodiment.
  • Figure 4 is a cross section of the ring scanner, according to an embodiment.
  • Figures 5-6 are diagrams illustrating charging cradles for the ring scanner, according to an embodiment.
  • Figure 7 is an architecture diagram illustrating hardware components of the ring scanner, according to an embodiment.
  • Figure 8 is a diagram illustrating network of ring scanners, according to an embodiment.
  • Figure 9 is a diagram illustrating functional modules of a ring scanner, according to an embodiment.
  • prior art ring scanners typically situate the main body of the device, including the optical scanner, to rest on the middle and index finger, opposite of the user’s palm.
  • these ring scanners normally have the barcode reader oriented to scan upright barcodes when the user’s hand is pronated.
  • Embodiments disclosed herein overcome these issues by instead positioning the barcode reader, or other optical detector, to scan upright barcodes when the user hand is in the neutral position. To do this, embodiments rest the body of the ring scanner device on top of the index finger, with the palm facing inward toward the users body.
  • the ring scanners lack output display devices or input devices, and instead rely on external devices, perhaps strapped to the user’s forearm.
  • Embodiments have integrated interactivity, including a touchscreen display and separate buttons that can be used to operate the optical detector and input data into an integrated computing device.
  • the integrated computing device can run software applications on board the ring scanner device.
  • the integrated computing device can be remotely managed.
  • a mobile device management console allows an administrator to control, secure, and enforce policies, and install and uninstall applications on the ring scanner devices.
  • embodiments provide remote management of a whole group of ring scanner devices.
  • Figures 2A and 2B are diagrams illustrating a ring scanner in operation, according to an embodiment.
  • Figure 2A shows a diagram 200 with a user/operator having a hand 204 and forearm 202. Hand 204 is gripping a ring scanner device 212.
  • Ring scanner device 212 has a display 208 and an optical detector 210.
  • ring scanner device 212 has a loop 216 through which an index finger 218 and a middle finger 220 pass through to grip and hold ring scanner device 212.
  • Loop 216 is configured to be gripped by index finger 218 and middle finger 220. It presses against the palmar side of index finger 218 and middle finger 220. Because loop 216 enables an operator to grip ring scanner device 212 with just a loop around the operator’s fingers, the operator maintains use of her hands. For example, the operator can continue to use her hands to operate equipment, carry packages, and climb ladders.
  • loop 216 is configured to be gripped by index finger
  • Display 208 is an output device for presentation of information in visual form. It outputs information that is supplied to it from a computing device (not shown) in ring scanner device, converting electrical signals into light.
  • display 208 can be an electroluminescent (ELD) display, liquid crystal display (LCD), light-emitting diode (LED) backlit LCD, thin-film transistor (TFT) LCD, light-emitting diode (LED) display, OLED display, AMOLED display, plasma (PDP) display, quantum dot (QLED) display, or electronic paper, such as E INK paper available from E Ink Corporation of Cambridge, Massachusetts.
  • ELD electroluminescent
  • LCD liquid crystal display
  • LED light-emitting diode
  • TFT thin-film transistor
  • LED light-emitting diode
  • OLED display OLED display
  • AMOLED display plasma (PDP) display
  • QLED quantum dot
  • electronic paper such as E INK paper available from E Ink Corporation of Cambridge, Massachusetts.
  • Optical detector 210 is an optical scanner that can read printed optical labels such as barcodes, decode the data contained in the optical label, and send the data to a computer. It may include a light source, a lens, and a light sensor translating for optical impulses into electrical signals. In different embodiments, optical detector 210 can be a pen-type reader, a laser scanner, a charge-coupled device (CCD) reader, a light emitting diode (LED) scanner, a camera-based reader, a video camera reader, a large field-of-view reader, or an omnidirectional barcode scanner.
  • CCD charge-coupled device
  • LED light emitting diode
  • Figure 2B shows a diagram 250 illustrating ring scanner device 212 from a different perspective. As shown in diagram 200, ring scanner device 212 is in this position to project light 254 to capture a barcode 256 on package 252.
  • barcode 256 is oriented in a horizontal direction, read left to right or right to left.
  • Barcode 256 is a linear dimensional (ID), one dimensional barcode with its lines running vertical to ground.
  • ID linear dimensional
  • barcode 256 may be two-dimensional and use rectangles, dots, hexagons and other patterns.
  • ring scanner device 212 includes a body piece 266, which includes an upper body portion 262 and a lower body 264.
  • Upper body portion 262 rests on a portion of index finger 218 facing a thumb 206 of hand 202.
  • Lower body 264 covers a dorsal side of index finger 218 and middle finger 220 of hand 202.
  • Upper body portion 262 and lower body 264 are affixed to one another and angled to cover at least a portion of the thumb-facing side of index finger 218 and the dorsal side of middle finger 220.
  • upper body portion 262 and lower body portion 264 encircle index finger 218 and middle finger 220. More specifically, together with loop 216 (labeled in FIG. 2A), upper body portion lower body portion may encircle a middle phalanx portion index finger 218 and middle finger 220.
  • Upper body portion 262 includes a plurality of buttons 222 that, when selected, causes ring scanner device 212 to perform certain actions.
  • Each of the plurality of buttons 222 may be a switch mechanism with a surface that can be depressed, or pushed, by a finger. When the surface is depressed an electrical signal is sent to input information and possibly trigger an action.
  • Each of the plurality of buttons 222 may have a spring to return to their un-pushed state. Other types of buttons may be used as well, such as virtual buttons presented on a touchscreen display.
  • plurality of buttons 222 may cause optical detector
  • buttons 222 are positioned on ring scanner device 212 to be selected by thumb 206.
  • buttons 222 are positioned to be selected by thumb 206 when hand
  • buttons 222 are positioned to be selected when index finger 218 and middle finger 220 are bent at a proximal interphalangeal joint 260.
  • Proximal interphalangeal joint 260 sits between a middle phalanx and proximal phalanx of index finger 218 and middle finger 220. Bending at proximal interphalangeal joint 260 may be more ergonomical than bending other joints, such as the metacarpophalangeal joint of index finger 218 and middle finger 220.
  • Display 208 may be a touchscreen display.
  • a touchscreen display is an assembly of both an input (touch panel) and output (display) device.
  • the touch panel may be layered on the top of the output electronic visual display.
  • a user can give input or control a computing device (not shown) in ring scanner 212 through simple or multi -touch gestures by touching the screen with a special stylus or one or more fingers.
  • a touch panel may be a resistive touchscreen panel, a surface acoustic wave (SAW) touch panel, a capacitive touchscreen panel, or an infrared touchscreen panel.
  • SAW surface acoustic wave
  • display 208 When display 208 is a touchscreen display, display 208 will also be positioned such that at least a portion of display 208 can be selected by thumb 206 when hand 202 is gripping a ring scanner device 212, and index finger 218 and middle finger 220 are bent - Sl at the proximal interphalangeal joint 260. Display 208 is configured to output visually from the computing device.
  • Figures 3 A-C are schematic diagrams illustrating the ring scanner in greater detail, according to an embodiment.
  • Figure 3 A illustrates a front three-quarter view 300 of ring scanner device 212.
  • ring scanner device 212 includes a battery 306, power button 302, strap 304, and semi-rigid portion 308.
  • Battery 306 is a device including one or more electrochemical cells to provide power for ring scanner device 212.
  • battery 306 may be a lithium-ion battery.
  • battery 306 may be removable so that it can be swapped out with fully charged batteries when battery 306 is depleted. Additionally or alternatively, battery 306 could be internal to device 212 and not removable. Battery 306 can be rechargeable, as will be discussed below with respect to Figures 5 and 6.
  • Power button 302 is a button that, when selected, causes ring scanner device 212 to power on or off. When ring scanner device 212 powers on, electricity is delivered from battery 306 to components of ring scanner device 212, such as optical scanner 210, display device 208, and other hardware components as will be discussed in greater detail with respect to figure 7.
  • Strap 304 is a ribbon used to fasten ring scanner device 212 to the operator’s fingers. As described above, strap 304, in conjunction with other components of ring scanner device 212 may encircle an operator’s fingers. Strap 304 may be made of nylon webbing, leather or other flexible materials. It also may be adjustable strap positioned to encircle the at least one finger.
  • Semi-rigid portion 308 protrudes from upper portion 262 and is situated behind strap 304, in particular between strap 304 and the operator’s fingers (not shown).
  • Semi rigid portion 308 may be flexible such that, as strap 304 is tightened, the tightened strap may pull semi-rigid portion 308 to tighten on the operator’s fingers.
  • Semi-rigid portion 308 may serve to allow strap 304 to be tightened, enabling the operator to maintain a tight grip on ring scanner device 212 without irritating the operator’s fingers.
  • semi-rigid portion 308 may be made of rubber or a rubber-like material.
  • semi-rigid portion 308 may be made of Thermoplastic Polyurethane (TPU), Thermoplastic Elastomer (TPE), butyl (HR), nitrile (NBR), Neoprene® (CR), Ethylene Propylene Diene Monomer (EPDM), Silicone (Q), or Viton®.
  • TPU Thermoplastic Polyurethane
  • TPE Thermoplastic Elastomer
  • HR butyl
  • NBR nitrile
  • Neoprene® CR
  • EPDM Ethylene Propylene Diene Monomer
  • Silicone Q
  • Viton® Silicone
  • Speaker 352 is a device which converts an electrical audio signal into a corresponding audible sound.
  • Example speakers include moving-iron loudspeakers, piezoelectric speakers, magnetostatic loudspeakers, electrostatic loudspeakers, ribbon and planar magnetic loudspeakers, bending wave loudspeakers, flat panel loudspeakers, Heil air motion transducers, transparent ionic conduction speakers, plasma arc speakers, thermoacoustic speakers, rotary woofers, moving-coil, electrostatic, electret, planar magnetic, and balanced armature.
  • buttons 222 includes three buttons: left button 356, right button 354, and center button 358.
  • Left and right buttons 356 may input selections into a computing device (not shown) in ring scanner 212. This may cause an action to be specified by an application running on the computing device.
  • the application may display a menu on display 208 and selecting buttons 354-356 may enable a user to navigate up and down through the menu. In this way, embodiments enable interactive applications to be executed by ring scanner 212.
  • Center button 358 is configured to, when selected, activate optical detector 210 to read a barcode. It also may send input data to the computing device.
  • Figure 3C illustrates a side view 370 of ring scanner device 212.
  • ring scanner device 212 includes upper body portion 262 and lower body portion 264.
  • ring scanner device 212 may rest on a portion of an operator’s index finger facing the operator’s thumb at position 380.
  • Vertical line 376 may represent substantially the orientation of semirigid portion
  • Vertical line 76 may represent substantially the orientation of the user’s hand in neutral position.
  • Horizontal line 374 runs perpendicular to vertical line 376.
  • display 208 is angled away from horizontal 374 at angle 372.
  • Angle 372 may be such that a user can select at least a portion (or the entirety of) display 208 with angle 374 away from a horizontal 374.
  • Horizontal 374 runs vertical 376.
  • FIG. 4 is a cross section 400 of ring scanner device 212, according to an embodiment. As shown in cross section 400, ring scanner device 212 includes a housing 408. [0060] Housing 408 is a protective exterior (e.g. shell) or an enclosing structural element
  • chassis or exoskeleton designed to enable easier handling, provide attachment points for internal mechanisms (e.g. mounting brackets for electrical components, cables and pipings), maintain cleanliness of the contents by shielding dirt/dust, fouling and other contaminations, or protect interior mechanisms (e.g. delicate integrated electrical fittings) from structural stress and/or potential physical damage.
  • housing 408 The interior of housing 408 include a cavity 404 that contains various electronic components, as illustrated in FIG. 7.
  • Housing 408 includes an opening 410 for touch screen 208 and other openings, such as an opening for a charging port 402.
  • Charging port 402 is configured to electrically couple ring scanner device 212 to a cradle and positioned directed toward the loop.
  • Charging port 402 may be a USB port as discussed with respect to FIG. 7 below.
  • Ring scanner 212 may include at least one magnet (not shown) positioned to align the charging port to the cradle to enable electrical coupling.
  • ring scanner 212 may be capable of wireless charging.
  • ring scanner 212 may have a silicon chip that receives a beacon signal to charge the device.
  • the chip may enable a power transmitter to locate a device and transmit power directly to the about device, along the path used to detect the chip. This path based functionality may allow the wireless power transmitter to continuously and safely sent power when needed.
  • ring scanner 212 may use the COTA power transmitter/receiver available from Ossia Inc. of Bellevue, WA or the WattUp power transmitter/receiver available from Energous Corporation.
  • FIG. 5 is a diagram 500 illustrating a charging cradle apparatus 510 for a ring scanner device, according to an embodiment.
  • Charging cradle apparatus 510 includes a back panel 502 and a plurality of charging cradles 506A-F.
  • Back panel 502 may be a substantially planar piece configured to be mounted vertically, such as against a wall. Each of the plurality of charging cradles 506A-F protrude from back panel 502. Back panel 502 may include electrical circuitry to communicatively and electrically connect the plurality of charging cradles 506A-F. In one example, back panel 502 may include a USB hub.
  • Each of the plurality of charging cradles 506A-F are configured to hold a respective ring scanner device, such as ring scanner devices 504A-C. Each respective ring scanner device 504A-C it is situated on a corresponding charging cradle 506A-F charging cradle. Each charging cradle 506A-F has a set of magnets positioned to couple with a ring scanner device ring scanner device 504A-C and position the ring scanner device 504A-C for electrical and/or communicative connection.
  • the electrical and/or communicative connection may be a USB connection.
  • the electrical connection may be a wireless charging terminal, such as a Qi charging terminal.
  • FIG. 6 is a diagram 600 illustrating a charging cradle apparatus 610 for a ring scanner device, according to an embodiment.
  • each ring scanner device has a removable battery that allows the battery to be swapped out, allowing the scanner device to continue to be used without loss of productivity.
  • Charging cradle apparatus 610 is adapted to charge the removable batteries.
  • Charging cradle apparatus 610 includes a plurality of slots, such as slots 604A-D.
  • Each slot is configured to accept a rechargeable battery, such as batteries 602A-C.
  • a rechargeable battery such as batteries 602A-C.
  • charging cradle apparatus 610 charges the battery.
  • Figure 7 is an architecture diagram 700 illustrating hardware components of the ring scanner, according to an embodiment.
  • diagram 700 includes display 208, optical scanner 210, buttons 222, battery 306, and speaker 352.
  • diagram 700 includes a processor 702, memory 704, light sensor 708, wired terminal 716, vibrator 722, Bluetooth interface 726 and Wi-Fi interface 724. Each of these components may be enclosed within housing 408 shown in FIG. 4.
  • Bus 728 is a communication system that transfers data between the hardware components of a ring scanner. In addition to transferring data, bus 728 may also transfer electrical power, such as from battery 306 to other components. In this way, bus 728 communicatively and electrically couples the various components together.
  • Memory 704 may include random access memory (RAM) and may also include nonvolatile memory, such as read only memory (ROM) and/or flash memory. Memory 704 may be embodied as an independent memory component, and may also be embedded in another component, such as processor 702, or may be embodied as a combination of independent as well as embedded, and/or a plurality of memory components is present, the invention is not so limited. Memory 704 is adapted to include software modules (a module is a set of instructions), such as those described below for FIG. 9.
  • Processor 702 is adapted to run instructions stored in memory 704.
  • Processor 702 may be a micro-controller unit (MCU), a digital signal processor (DSP) and/or an Image/Video Processing unit or the like components that run instructions.
  • MCU micro-controller unit
  • DSP digital signal processor
  • An example of an MCU is MSP432P401x, available from Texas Instruments Inc. of Dallas, Texas.
  • An example of a DSP is C5000, available from Texas Instruments Inc. of Dallas, Texas.
  • An example of an image/video processor is OMAP3525, available from Texas Instruments Inc. of Dallas, Texas.
  • processors 702 may be present.
  • Processor 702 may be an independent component, it may also be embedded in another component, such as in image sensor 702, or any combination thereof.
  • Wired terminal 716 is adapted to attach to a wired network, including, but not limited to, Ethernet, USB or thunderbolt.
  • Diagram 700 includes two wireless interfaces, Wi-Fi interface 724 and Bluetooth interface 726.
  • Wi-Fi interface 724 may provide a network interface accessible by applications running on processor 702.
  • Bluetooth interface 726 may be adapted to enable the ring scanner device to interact with peripheral devices, such as headsets (not shown).
  • Light sensor 708 is a photodetector. It is a sensor of light. A photo detector has a p-n junction that converts light photons into current. The absorbed photons make electron-hole pairs in the depletion region. Photodiodes and photo transistors are a few examples of photo detectors. In a different example, light sensor 708 may be a photoemission or photoelectric effect photodetector, thermal photodetectors, polarization photodetectors, or photochemical photodetectors.
  • light sensor 708 may signal to processor 702 when light is detected.
  • Processor 702 may adjust the brightness of display 208. Automatically adjusting brightness in this way may have the effect of conserving power in battery 306.
  • Vibrator 722 is a device that causes vibration when receiving a specified signal from processor 702.
  • Vibrator 722 is a mechanical device to generate vibrations. To generate the vibrations, vibrator 722 may include an electric motor with an unbalanced mass on its driveshaft. Vibrator 722 may be a vibrating structure gyroscope implemented as a microelectromechanical system (MEMS).
  • Speaker 352 is coupled to processor 702 and is configured to cause the ring scanner device to emit sound as specified by commands from processor 702. In this way, speaker 352 may provide audio to a user of the ring scanner device as specified by an application running on processor 702.
  • Buttons 222 may send commands to processor 702, or other components such as optical scanner 210.
  • a signal may be sent to processor 702. That signal may cause an interrupt command in the software application running in processor 702, causing processor 702 to run specific commands that an application specifies to correspond to that button input. In this way, using buttons 222, a user can trigger actions as specified by the application running on processor 702.
  • processor 702 can output information to display 208 as specified by a software application running on processor 702.
  • display 208 can be a touchscreen display. In this way, interactive applications can be implemented within a ring scanner device.
  • RFID radiofrequency identification
  • NFC near field communication
  • RFID uses electromagnetic fields to automatically identify and track tags attached to objects.
  • An RFID system consists of a tiny radio transponder, a radio receiver and transmitter. When triggered by an electromagnetic interrogation pulse from RFID reader 116, an RFID tag transmits digital data back to the reader.
  • a NFC reader may allow for collection of payment data from an EMV chip or from a user’s mobile device (not shown).
  • these NFC and RFID readers may be used for login purposes.
  • An operator can swipe her badge in vicinity of a ring scanner having these features and the ring scanner can log her in using the information received from the NFC chip or the badge. Then, when the operator is using the ring scanner device, any scanned items are tracked with an identification of the operator who logged into the scanner.
  • Figure 8 illustrates a system 800 illustrating a network of ring scanners, according to an embodiment.
  • System 800 includes a plurality of ring scanner devices 802A-N coupled to a device management server 806 via network 804.
  • Network 804 enables communication between the various devices 802A-N and device management server 806.
  • Network 804 may be an ad hoc network, an intranet, an extranet, a virtual private network (VPN), a local area network (LAN), a wireless LAN (WLAN), a wide area network (WAN), a wireless wide area network (WWAN), a metropolitan area network (MAN), a portion of the Internet, a portion of the Public Switched Telephone Network (PSTN), a cellular telephone network, a wireless network, a WiFi network, a WiMax network, any other type of network, or any combination of two or more such networks.
  • VPN virtual private network
  • LAN local area network
  • WLAN wireless LAN
  • WAN wide area network
  • WWAN wireless wide area network
  • MAN metropolitan area network
  • PSTN Public Switched Telephone Network
  • PSTN Public Switched Telephone Network
  • Device management server 806 enables administration of ring scanner devices
  • Device management server 806 allows for remote administration of ring scanner devices 802A-N in a consistent and scalable way.
  • Device management server 806 is coupled to a device database 808.
  • a device 802A-N Once a device 802A-N has enrolled and registered in device database 808, it becomes a device managed by device management server 806.
  • the various services provided by device management server 806 may include: (i) ensuring that devices 802A- N are configured to a consistent standard and supported set of applications, functions, or corporate policies, (ii) updating applications, functions, or policies installed on devices 802A-N, (iii) ensuring that users use devices 802A-N in a consistent and supportable manner, (iv) ensuring that devices 802A-N operate correctly (diagnosing and troubleshooting device 802A-N), and (v) monitoring and tracking devices 802A-N (e.g. location, status, ownership, activity).
  • Device management server 806 may provide the management services to the devices 802A-N via a push message over network 804.
  • Device management server 806 may send the push message to devices 802A-N, without devices 802A-N first requesting that message.
  • the devices 802A-N may execute a device manager 904 daemon (discussed further below with respect to FIG. 9) that listens for the push message to update any changes to the management services. Additionally or alternatively, devices 802A-N may periodically or intermittently poll device management server 806 for any changes to the services.
  • Device management server 806 may be implemented on any computing device, including processor and memory. It may also include a plurality of computing devices, such as a server farm.
  • communication between device management server 806 and devices 802A-N may be based on extensible web service capabilities using standard and open protocols, such as XML (Extensible Markup Language), HTTPS (Hypertext Transfer Protocol Secure) to support transactions over the secure network connections.
  • management services may be delivered to the managed device from a management server of the enterprise service securely via a mechanism leveraging a push network coupling the management server and the mobile device.
  • the push network may enable the management server to push a notification to wake up the mobile device (or a device manager waiting in the mobile device) for receiving management services.
  • the mobile device may poll the management server via separate secure network connections to retrieve commands for the management services via the secure network connections.
  • the management server may be based on extensible web service capabilities using standard and open protocols, such as XML (Extensible Markup Language), HTTPS (Hypertext Transfer Protocol Secure) to support transactions over the secure network connections.
  • Figure 9 is a diagram illustrating functional modules of a ring scanner device 802 and device management server 806, according to an embodiment. These various functional modules are preferably implemented as software modules, but can be implemented in whole or in part in hardware, firmware, software, or any combination thereof.
  • ring scanner 802 includes an application 902, device manager 904, which is coupled to a policy 912, and an operating system 914.
  • Application 902 is software to carry out a specific task other than one relating to the operation of the computing device itself, typically to be used by end-users.
  • Application 902 may specify operations not performed by system software, relating to the operation of the computer, and utility software (both of which may be provided by operating system 914). In an embodiment, application 902 specifies how a ring scanner’s processor is to update the ring scanner’s display responsive to the data input from input device.
  • application 902 may cross-reference the code decoded from an optical scanner with a list, for example, a list of known packages that are to be intercepted. When the code is on the list, it may notify an operator of the ring scanner device. For example, it may notify the operator by displaying a message on its screen, playing an audible sound, and/or activating a vibration.
  • Device manager 904 is a process to implement device management services on ring scanner 802. To implement device management services, device manager 904 may include one or more daemons that listen for instructions from device management server and implement the received instructions. Device manager 904 may also report to device management server 806 any requested device configuration information, diagnostic information, or tracking information.
  • device manager 904 may be a daemon process which sleeps while waiting for a notification pushed from management server 806.
  • a processing unit may suspend a process or thread in a sleep state and execute other processes or threads. The processing unit may continue to execute the suspended process or thread when they wake up from the sleep state.
  • Device manager 904 may wake up in response to the notification received. For example, device manager 904 may initiate secure network connections via network 804 with management server 904 to perform management operations. Device manager 904 may go back to sleep, e.g. when instructed by the device management server 806 or when deferring performing certain management operations. In some embodiments, device manager 904 may disconnect the secure network connection prior to going back to sleep.
  • Device manager 904 includes an application manager 906, security manager 908, and location tracker 910.
  • Application manager 906 is configured to receive, via the network interface and from device management server 806, any new or updated application. Application manager 906 can also install the new or updated application to update the operations of the ring scanner device. This install may, for example, involve requiring a restart of ring scanner 802. Additionally or alternatively, application manager 906
  • Security manager 908 receives from device management server 806 any updates to policy 912 and enforces the policy 912.
  • policy 912 may specify security rules restricting user access to ring scanner 802 in a manner that promotes security.
  • security rules may include device lock and passcode/password rules and renewals, user roles, and access to application 902.
  • security manager 908 may support other security commands from device management server 806.
  • security manager 908 may execute a command from device management server 806 to erase ring scanner device 802 (e.g. to completely reconfigure a mobile device two factory defaults).
  • Security manager 908 may service queries of device information (e.g. device capacity, serial number etc.), and network information (e.g. phone number, subscriber identity module numbers, media access control addresses), policy 912 and installed applications
  • Security manager 908 may include an identity certificate as a certificate payload for ring scanner 802 to authenticate itself to management server 101 over SSL network connection via network 804. Once a management profile is removed (or uninstalled) from device database 808, a corresponding ring scanner may no longer be managed by device management server 806.
  • Location tracker 910 enables device management server 806 to query ring scanner device 802 for location information.
  • Location information may include network information (such as a Wi-Fi SSID).
  • ring scanner 802 may have a GPS receiver and the location information may be coordinates from a satellite- based global positioning system.
  • Location tracker 910 may also receive a message from device management server 806 to ping for a lost device. When location tracker 910 receives the ping request, it may play an audible sound to help locate ring scanner device 802.
  • Operating system 914 is a system software that manages computer hardware, software resources, and provides common services for computer programs.
  • An operating system (OS) is system software that manages computer hardware, software resources, and provides common services for computer programs.
  • Operating system 914 acts as an intermediary between programs and for memory allocation and access to input and output components. For example, as application 902 is executed by processor 702, application 902 may make system calls to operating system 914 to access output devices. Or, application 902 may be interrupted by operating system 914 in response to an input device.
  • Operating system 914 is the ANDROID operating system, available from Alphabet, Inc. of Mountain View, CA.
  • Management console 903 enables an administrator to control device management server 806. For example, in response to user input into management console 903, device management server 806 can update policy 912 or application 902, query the scanner device for location information, and ping the scanner device to emit an audible sound to help locate the ring scanner device.
  • Identifiers such as “(a),” “(b),” “(i),” “(ii),” etc., are sometimes used for different elements or steps. These identifiers are used for clarity and do not necessarily designate an order for the elements or steps.

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Abstract

Des modes de réalisation positionnent un lecteur de code à barres, ou un autre détecteur optique, pour balayer des codes à barres verticaux lorsque la main de l'utilisateur se trouve dans une position neutre. Pour ce faire, des modes de réalisation reposent sur le corps du dispositif de balayage annulaire au-dessus de l'index, la paume faisant face vers l'intérieur en direction du corps de l'utilisateur. Des modes de réalisation présentent une interactivité intégrée, comprenant un afficheur à écran tactile et des boutons séparés qui peuvent être utilisés pour faire fonctionner le détecteur optique et entrer des données dans un dispositif informatique intégré. Le dispositif informatique intégré peut exécuter des applications logicielles à bord du dispositif de balayage annulaire. Enfin, le dispositif informatique intégré peut être géré à distance.
EP22738769.3A 2021-05-25 2022-05-25 Dispositif de balayage annulaire ergonomique et interactif, et applications associées Pending EP4305545A1 (fr)

Applications Claiming Priority (5)

Application Number Priority Date Filing Date Title
US17/330,110 US11288474B1 (en) 2021-05-25 2021-05-25 Interactive ring scanner device, and applications thereof
US17/330,090 US11397866B1 (en) 2021-05-25 2021-05-25 Ergonomic ring scanner oriented in a neutral grip position and charging cradle assembly
US17/330,125 US11620468B2 (en) 2021-05-25 2021-05-25 Remotely managing a ring scanner device, and applications thereof
US17/661,626 US20220383014A1 (en) 2021-05-25 2022-05-02 Ergonomic ring scanner oriented in a neutral grip position, and applications thereof
PCT/US2022/030944 WO2022251374A1 (fr) 2021-05-25 2022-05-25 Dispositif de balayage annulaire ergonomique et interactif, et applications associées

Publications (1)

Publication Number Publication Date
EP4305545A1 true EP4305545A1 (fr) 2024-01-17

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EP22738769.3A Pending EP4305545A1 (fr) 2021-05-25 2022-05-25 Dispositif de balayage annulaire ergonomique et interactif, et applications associées

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EP (1) EP4305545A1 (fr)
CA (1) CA3221225A1 (fr)

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