A cartridge for coupling to a conducted electrical weapon to launch electrodes toward a target to provide a current through the target to impede locomotion of the target. The cartridge includes a cover that covers a forward portion of the cartridge. The cover may be over molded on the forward portion of the cartridge. The cover includes a frangible portion. The frangible portion may surround the perimeter of a door or be positioned between flaps. The frangible portion may be broken to separate the door from the cover or to disengage the flaps so they can move. The electrode may launch through a door opening or between the flaps to travel toward the target.
Systems and methods for calibrating a conducted electrical weapon (“CEW”) to provide a predetermined amount of current for each pulse of the stimulus signal. Providing the predetermined amount of current, close thereto, increases the effectiveness of the stimulus signal in impeding locomotion of a human or animal target. The calibration process enables a CEW to calibrate the amount of charge in a pulse of the stimulus signal in the environmental conditions where the tester operates and also in the field where the environmental conditions may be different from the environmental conditions during calibration.
F41H 13/00 - Means of attack or defence not otherwise provided for
G01R 35/00 - Testing or calibrating of apparatus covered by the other groups of this subclass
G01R 31/319 - Tester hardware, i.e. output processing circuits
G01R 15/16 - Adaptations providing voltage or current isolation, e.g. for high-voltage or high-current networks using capacitive devices
G01R 17/02 - Arrangements in which the value to be measured is automatically compared with a reference value
G01R 31/36 - Arrangements for testing, measuring or monitoring the electrical condition of accumulators or electric batteries, e.g. capacity or state of charge [SoC]
3.
SYSTEMS AND METHODS FOR CALIBRATING A CONDUCTED ELECTRICAL WEAPON
Systems and methods for calibrating a conducted electrical weapon ("CEW") to provide a predetermined amount of current for each pulse of the stimulus signal. Providing the predetermined amount of current, close thereto, increases the effectiveness of the stimulus signal in impeding locomotion of a human or animal target. The calibration process enables a CEW to calibrate the amount of charge in a pulse of the stimulus signal in the environmental conditions where the tester operates and also in the field where the environmental conditions may be different from the environmental conditions during calibration.
Systems and methods for calibrating a conducted electrical weapon (“CEW”) to provide a predetermined amount of current for each pulse of the stimulus signal. Providing the predetermined amount of current, close thereto, increases the effectiveness of the stimulus signal in impeding locomotion of a human or animal target. The calibration process enables a CEW to calibrate the amount of charge in a pulse of the stimulus signal in the environmental conditions where the tester operates and also in the field where the environmental conditions may be different from the environmental conditions during calibration.
G01R 31/00 - Arrangements for testing electric properties; Arrangements for locating electric faults; Arrangements for electrical testing characterised by what is being tested not provided for elsewhere
F41H 13/00 - Means of attack or defence not otherwise provided for
G01R 31/36 - Arrangements for testing, measuring or monitoring the electrical condition of accumulators or electric batteries, e.g. capacity or state of charge [SoC]
5.
METHODS AND APPARATUS FOR A CONDUCTED ELECTRICAL WEAPON
A conducted electrical weapon ("CEW") launches wire-tethered electrodes from multiple cartridges to provide a current through a human or animal target to impede locomotion of the target. The CEW includes a handle and one or more deployment units. A handle and each deployment unit include a processing circuit and memory. A handle may provide operation and usage records to a deployment unit for storage. The information stored on a deployment unit may be unalterable once written. A handle may log a record of usage, deployment units, and other deployment information. The log file may be available to an electronic device through a secure wireless protocol.
A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a current through a human or animal target to impede locomotion of the target. The CEW includes a handle and one or more deployment units. A handle and each deployment unit include a processing circuit and memory. A handle may provide operation and usage records to a deployment unit for storage. The information stored on a deployment unit may be unalterable once written. A handle may log a record of usage, deployment units, and other deployment information. The log file may be available to an electronic device through a secure wireless protocol.
F41H 13/00 - Means of attack or defence not otherwise provided for
G06F 21/32 - User authentication using biometric data, e.g. fingerprints, iris scans or voiceprints
G06F 13/366 - Handling requests for interconnection or transfer for access to common bus or bus system with centralised access control using a centralised polling arbiter
A system that creates an environment (e.g., ecosystem) for using, transmitting, and storing data from a CEW and other equipment. The information from a CEW includes a log maintained by the CEW. The log may include information related to the operation, maintenance, software, and deployment units used by the CEW. The information may be used alone or in combination with other information received and stored by an evidence management system for managing inventory, generating use-of-force reports, incident reports, and/or providing information related to equipment, such as a CEW, to the supplier of the equipment. Sources of information provided to an evidence management system includes equipment suppliers, CEWs, other cooperating equipment, records management systems of an agency, a dispatch system of an agency, and third parties. A CEW or other equipment may also receive information for storing in the log.
Computer-implemented methods and systems for processing recorded data for storage is provided. An auditable device, such as a digital video camera, stores a set of recorded data. The auditable device also stores auditable event entries that represent auditable events detected by the auditable device. One type of auditable event is the receipt of information from a computer-aided dispatch (CAD) system that indicates an event. The auditable device marks at least one subset of the set of recorded data based on the auditable event entries, and uploads the marked at least one subset of the set of recorded data to an evidence management system.
H04N 5/77 - Interface circuits between an apparatus for recording and another apparatus between a recording apparatus and a television camera
H04N 9/802 - Transformation of the television signal for recording, e.g. modulation, frequency changing; Inverse transformation for playback involving processing of the sound signal
A recording device, such as a video camera, emits audio watermarks (e.g., audible tones, inaudible tones) and records audio watermarks emitted by other recording devices. The audio watermarks provide information (e.g., data) such as an identifier of the camera and the identity of the operate. Audio watermarks may further include time information such as a timestamp indicating the time that the audio watermark was emitted by the camera. Audio watermarks may be emitted and recorded at intervals while recording an incident. A processing system, such as a digital video and audio processing system, may receive video information and recorded watermarks from multiple recording devices. The processing system may use the audio watermarks recorded by each recording device to determine which recording devices were in the vicinity of an incident. The processing system may also use the audio watermarks to align (e.g., synchronize) the video recorded by the various recording devices. Alignment of recorded video may permit synchronized playback of the recorded video from the various recording devices. Alignment may further identify at what point during an incident a recording device began and terminated recording.
A conducted electrical weapon ("CEW") launches wire-tethered electrodes to provide a current through a human or animal target to impede locomotion of the target. The current may ionize air in a gap. A gap may occur between terminals at a face of the CEW and/or between the electrodes positioned near target tissue. A CEW may include a detector to detect ionization of air in a gap. A CEW may use information related to detecting ionization to determine a location where the ionization occurred. Information regarding location of ionization may be used to determine whether the current was delivered through the target via the electrodes.
A conducted electrical weapon (“CEW”) launches wire-tethered electrodes from multiple cartridges to provide a current through a human or animal target to impede locomotion of the target. The CEW may detect when the electrodes launched from the cartridges may provide the current through more than one target. The CEW may detect when electrodes launched from the cartridges may provide the current through the same target. The CEW may set the pulse rate of the current based on detecting the launch of electrodes from more than one cartridge, detecting that electrodes may provide the current through two or more targets, and/or detecting that two or more pairs of electrodes may deliver the current through the same target.
A recording system may use the information stored in a list to determine whether to receive and/or respond to messages transmitted by notice systems. The source of the information for the list includes a server and/or the recording system itself. A server that provides the list may use data provided by an agency to determine a relationship between a people, recording devices and notice systems. The associations between people, recording devices and notice devices may be used to determine what information is in the list. A recording device that forms the list may receive messages from any notice system, detect the session identifier, store the session identifiers from received messages, and receive and/or respond to messages in accordance with the list formed by the recording system.
Dispatch-aiding communications between computing devices of a responder and a dispatch unit include a computing device of the responder determining that an event occurred, automatically sending an indication of the event to a computing device of the dispatch unit, receiving a request for information from the computing device of the dispatch unit, obtaining the information requested by the computing device of the dispatch unit, and sending the information requested by the computing device of the dispatch unit to the computing device of the dispatch unit. The computing device of the dispatch unit sends the request for information to the computing device of the responder in response to receiving the indication of the event.
A61B 5/1455 - Measuring characteristics of blood in vivo, e.g. gas concentration, pH-value using optical sensors, e.g. spectral photometrical oximeters
A61B 5/08 - Measuring devices for evaluating the respiratory organs
A61B 5/00 - Measuring for diagnostic purposes ; Identification of persons
A method of automatic activation of a responder camera to begin capturing a video can be performed by a computing device. The computing device receives an indication of a location or an event. The computing device determines a geographic area associated with the location or event. The computing device receives a dispatch acknowledgement from a responder, where the dispatch acknowledgement indicates that the responder is at the geographic area or that the responder is en route to the geographic area. The computing device automatically sends a camera activation signal to a responder camera associated with the responder in response to receiving the dispatch acknowledgement from the responder. The responder camera is configured to begin capturing a video in response to receiving the camera activation signal.
Dispatch-aiding communications between computing devices of a responder and a dispatch unit include a computing device of the responder determining that an event occurred, automatically sending an indication of the event to a computing device of the dispatch unit, receiving a request for information from the computing device of the dispatch unit, obtaining the information requested by the computing device of the dispatch unit, and sending the information requested by the computing device of the dispatch unit to the computing device of the dispatch unit. The computing device of the dispatch unit sends the request for information to the computing device of the responder in response to receiving the indication of the event.
Dispatch-aiding communications between computing devices of a responder and a dispatch unit include a computing device of the responder determining that an event occurred, automatically sending an indication of the event to a computing device of the dispatch unit, receiving a request for information from the computing device of the dispatch unit, obtaining the information requested by the computing device of the dispatch unit, and sending the information requested by the computing device of the dispatch unit to the computing device of the dispatch unit. The computing device of the dispatch unit sends the request for information to the computing device of the responder in response to receiving the indication of the event.
A method for communicating among responders from a plurality of responder agencies includes determining that responders from two responder agencies are located at an event or location. Each of the responders from the two responder agencies has a computing device that is configured to communicate with the other computing device of the responders. Authorization is received from the two responder agencies to permit direct communication between responders from the two responder agencies. A communication link is established between the computing devices of the responders of the two responder agencies in response to determining that the responders from the two responder agencies are located at the event or location and in response to receiving the authorization. The communication link permits direct communication between the responders of the two responder agencies.
A detector monitors the presence, absence, insertion, and/or removal of an object in a holster. The detector broadcasts a message to an electronic device reporting whether the object, such as a weapon, has been removed from the holster and/or if the holster lock has been unlocked. The detector repeatedly probes for the presence of the object in the holster. The electronic device, in response to authenticating the message, may control the recording of audio, video, and/or other data in conjunction with the insertion or withdrawal. The detector stores information about when an object has been removed or inserted from the holster and provides it the electronic device.
G01V 3/08 - Electric or magnetic prospecting or detecting; Measuring magnetic field characteristics of the earth, e.g. declination or deviation operating with magnetic or electric fields produced or modified by objects or geological structures or by detecting devices
A method for communicating among responders from a plurality of responder agencies includes determining that responders from two responder agencies are located at an event or location. Each of the responders from the two responder agencies has a computing device that is configured to communicate with the other computing device of the responders. Authorization is received from the two responder agencies to permit direct communication between responders from the two responder agencies. A communication link is established between the computing devices of the responders of the two responder agencies in response to determining that the responders from the two responder agencies are located at the event or location and in response to receiving the authorization. The communication link permits direct communication between the responders of the two responder agencies.
In some embodiments, auditable devices such as auditable cameras are provided. The auditable devices maintain audit trail data that is digitally signed and stored on the devices until it can be uploaded to an evidence management system. When intermittent data connections to the evidence management system are available, an auditable device may transmit records of urgent events to the evidence management system. The transmission of urgent events via ad-hoc data connections and the digital signing of audit trail data help overcome technical obstacles in establishing provably reliable data collection while minimizing power consumption by the auditable device.
Computer-implemented methods and systems for processing recorded data for storage is provided. An auditable device, such as a digital video camera, stores a set of recorded data. The auditable device also stores auditable event entries that represent auditable events detected by the auditable device. One type of auditable event is the receipt of information from a computer-aided dispatch (CAD) system that indicates an event. The auditable device marks at least one subset of the set of recorded data based on the auditable event entries, and uploads the marked at least one subset of the set of recorded data to an evidence management system.
A body-worn system for capturing visual and audio information. The body-worn system includes a housing having a first end portion and a second end portion. The first end portion has a first opening and the second end portion has a second opening. The housing is formed of a flexible material that retains its shape after being manipulated. A camera is positioned in the housing so that the camera captures visual information through the first opening. A microphone is positioned in the housing so that the microphone captures audio information through the second opening. The housing fits at least partially around a user's neck. The first end portion and the second end portion are manipulated so that first opening and the second opening are oriented toward the field of view of the user while the housing is positioned around the neck of the user.
A coupler for removable coupling an object to a support. The coupler includes a cover, a ring, and a base. The cover couples to the support. The ring includes a first arm, a second arm, a third arm, a fourth arm, a first stop, and a second stop. Each arm of the ring is formed of a resilient material. The ring is positioned in a cavity of the cover. The base couples to the accessory. The base cooperates with the cover and the ring to couple to the cover and to rotate from a decoupled position to an intermediate position and further to a clocked position.
A computer system receives event data associated with data records in a database, receives metadata corresponding to a digital media content file (e.g., a video, audio, or image file), compares the event data with the metadata, automatically identifies a matching event based on the comparison, and automatically tags the content file by modifying the metadata based on event data associated with the matching event. In one usage scenario, the digital media content file may be used as evidence in a criminal investigation. The event data may be provided in the form of a summary or snapshot of the database, which may include data records covering a limited period of time. The digital media content file can be recorded by any suitable digital media device, such as a video camera. The computer system may further include a dock configured to upload digital media content received from the digital media device.
Systems and methods for redacting information from data records are provided. Data records are recorded by recording devices, including, but not limited to, camera recording devices such as those associated with law-enforcement officers. The data records are stored in an evidence management system. In response to requests for records, including but not limited to Freedom of Information Act (FOIA) requests, the evidence management system creates redacted versions of the data records. Public access may then be provided to the redacted data records. In some embodiments, automated bulk redaction may be applied to video data records by applying a video filter to the entire visual field of the video information. In some embodiments, access to the redacted data records may be provided via a cloud storage system or via a removable computer-readable storage medium.
Systems involving distributed control functions are described herein. Each member or device within the system has responsibility for controlling part of the system's behavior, and includes logic to determine what action, if any, will follow as a response to determining information or receiving information from other members or devices within the system. A change of status of one member of a system may provide a basis for action by another member of the system. Status may be the result of sensing a condition of the environment, sensing the condition of a component, receiving the output of a conventional sensor, and/or sensing the condition of a link between components. In some embodiments, action taken by a member of the system may include collecting data during law enforcement activities.
Systems involving distributed control functions are described herein. Each member or device within the system has responsibility for controlling part of the system's behavior, and includes logic to determine what action, if any, will follow as a response to determining information or receiving information from other members or devices within the system. A change of status of one member of a system may provide a basis for action by another member of the system. Status may be the result of sensing a condition of the environment, sensing the condition of a component, receiving the output of a conventional sensor, and/or sensing the condition of a link between components. In some embodiments, action taken by a member of the system may include collecting data during law enforcement activities.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
G06F 13/10 - Program control for peripheral devices
H04N 21/422 - Input-only peripherals, e.g. global positioning system [GPS]
H04N 21/436 - Interfacing a local distribution network, e.g. communicating with another STB or inside the home
H04N 21/4363 - Adapting the video stream to a specific local network, e.g. a IEEE 1394 or Bluetooth® network
29.
Electrode for electronic weaponry that dissipates kinetic energy
An electronic weapon with an installed deployment unit, from which at least one tethered electrode is launched, provides a stimulus current through a target to inhibit locomotion by the target. The wire tether, also called a filament, conducts the stimulus current. The one or more electrodes, according to various aspects of the present invention, perform one or more of the following functions in any combination: binding the filament to the electrode, deploying the filament from the deployment unit, coupling the electrode to the target, and distributing a current density with respect to a volume of target tissue. An electrode may include a spear comprising a material with integrated conductive and insulative substances (e.g., conductive fibers in insulative composite material) and a geometry to dissipate kinetic energy after impact with the target.
An electronic weapon inhibits locomotion by a human or animal target by conducting a stimulus signal through the target. The electronic weapon includes an inductance, first and second energy stores, and a switch. The switch has a first position and a second position and is in series with first energy store and the inductance. Energy from the first energy store is transferred to a magnetic field of the inductance while the switch is operating in the first position. The stimulus signal comprises a first phase and a second phase. During the first phase, the switch is operated in the second position, and a flyback effect of the inductance provides an ionizing voltage for the stimulus signal. During the second phase, the second energy store releases energy for the stimulus signal at a voltage less than the ionizing voltage.
A holster broadcasts a message indicating that a weapon has been removed from the holster. A recorder, in response to authenticating the message, controls recording of audio and video. The message may include an identifier of the holster. The recorder may maintain a white list of identifications and ignore messages with identifications that are not on the white list. The message, instead of being broadcast, may be transmitted with an address of an intended recorder.
Systems and methods for a close quarters weapon include disassembly of the weapon by the user to permit applying a stimulus signal for causing skeletal muscle contractions through tissue of a human or animal target between locations on the target that are independently determined by the user.
A server and one or more portals cooperate with a first registered agency, an administrator of the first registered agency, a second agency, and an administrator of the second registered agency to determine whether access to protectable information should be granted to a registered requester.
H04L 9/32 - Arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system
G06F 17/22 - Manipulating or registering by use of codes, e.g. in sequence of text characters
G06F 21/62 - Protecting access to data via a platform, e.g. using keys or access control rules
34.
Systems and methods for managing disclosure of protectable information
A server and one or more portals cooperate with a first registered agency, an administrator of the first registered agency, a second agency, and an administrator of the second registered agency to determine whether access to protectable information should be granted to a registered requester.
H04L 9/32 - Arrangements for secret or secure communications; Network security protocols including means for verifying the identity or authority of a user of the system
G06F 17/30 - Information retrieval; Database structures therefor
G06F 17/00 - Digital computing or data processing equipment or methods, specially adapted for specific functions
A bracket orients and/or supports a guest object from a host structure that includes one or more sheets that may overlap. The sheets may include a fastener. For example, a bracket may orient a video camera/recorder supported by an article of clothing worn by a law enforcement officer. The bracket bears at least part of the weight of the object and maintains an orientation of the object. Friction between the bracket and one or more of the host sheets may resist movement of the bracket with respect to the sheet. The bracket ma be installed by passing a portion of the bracket through an orifice of the sheet. When used with an overlapping arrangement of two sheet edges, friction between the bracket and each sheet edge may resist movement of the bracket with respect to each sheet edge.
A bracket orients and/or supports a guest object from a host structure that includes one or more sheets that may overlap. The sheets may include a fastener. For example, a bracket may orient a video camera/recorder supported by an article of clothing worn by a law enforcement officer. The bracket bears at least part of the weight of the object and maintains an orientation of the object. Friction between the bracket and one or more of the host sheets may resist movement of the bracket with respect to the sheet. The bracket may be installed by passing a portion of the bracket through an orifice of the sheet. When used with an overlapping arrangement of two sheet edges, friction between the bracket and each sheet edge may resist movement of the bracket with respect to each sheet edge. Consequently, the bracket may further serve to mechanically couple the two sheet edges, align, and/or maintain the alignment of the two sheet edges. When located over a fastener of the host structure, the fastener may locate, position, and/or align the bracket to the host. A bracket may provide a surface for mounting the guest to the bracket and one or more additional surfaces or braces for maintaining the bracket in generally parallel alignment with a surface of the host. The bracket consequently maintains a surface of the guest in general parallel alignment with a surface of the host.
F16M 13/02 - Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or attaching to, an object, e.g. tree, gate, window-frame, cycle
F16M 13/04 - Other supports for positioning apparatus or articles; Means for steadying hand-held apparatus or articles for supporting on, or holding steady relative to, a person, e.g. by chains
A method facilitates collaboration between a first agency having an agent and a second agency having an administrator. The method includes in any practical order: (a) receiving a request for search originating with the agent; (b) determining that information controlled by the second agency is within the scope of search; (c) after determining, causing an access request to be sent to the administrator of the second agency; and (d) causing the information to be sent to the agent after receiving a permit from the administrator, wherein the permit comprises indicia of a human-authorization.
An electronic weapon with an installed deployment unit, from which wire-tethered electrodes are launched, provides a stimulus current through a target to inhibit locomotion by the target. A canister of compressed gas propels the electrodes. The canister is located in the deployment unit in a manner that facilitates the design and manufacture of a relatively narrow deployment unit.
A deployment unit for an electronic control device (ECD) used as a weapon provides a current from a signal generator of the ECD through tissue of a human or animal target. The deployment unit includes a housing, an interface, a filament, and an electrode. The interface couples the housing to the signal generator. The filament includes a first end coupled to the interface for receiving the current and comprises a second end. The filament conducts the current for inhibiting voluntary movement by the target. The electrode, stored in the housing prior to deployment, mechanically couples the filament to the target when deployed. The electrode includes an assembly of a first part and a second part that after assembly cooperate to bind the second end of the filament to the electrode.
An electronic weapon has an installed deployment unit from which an electrode is launched. The electrode is tethered to the deployment unit by a wire or filament. According to various aspects of the present invention, a wire-tethered electrode for launching from a weapon, for impacting clothing of a human target, and for conducting a stimulus signal through the target to inhibit locomotion by the target includes an insulated wire, a spear, and a body. The wire mechanically couples the electrode to the weapon. The spear lodges in the clothing. The body has an interior. The interior confines the wire against the spear so that the stimulus signal ionizes air in a gap between an uninsulated end of the wire and the spear, and ionizes air between the barb and tissue of the target to facilitate conducting the stimulus signal through the spear and through the target.
An electronic weapon has an installed deployment unit, from which at least one tethered electrode is launched, provides a stimulus current through a target to inhibit locomotion by the target. The wire tether, also called a filament, conducts the stimulus current. The one or more electrodes, according to various aspects of the present invention, perform one or more of the following functions in any combination: binding the filament to the electrode, deploying the filament from the deployment unit, coupling the electrode to the target, and distributing a current density with respect to a volume of target tissue. An electrode may include conductive material and insulative material. Relatively high electric field flux density at a tip of the electrode may be reduced or avoided by practice of the invention.
An apparatus, according to various aspects of the present invention, produces contractions in skeletal muscles of a target to impede locomotion by the target. The apparatus is used with a provided deployment unit that deploys an electrode away from the apparatus. The electrode conducts a current through the target. The apparatus includes a terminal; a producing sub-system for producing an electric arc to warn the target without conducting a current through the target; a conducting sub-system for conducting the current in series through the terminal and through the target; an initiating sub-system for initiating deployment of the electrode; and an operator interface. The operator interface facilitates selecting one or more cartridges of a set of cartridges to provide a stimulus signal to a target and/or display an arc.
An apparatus, according to various aspects of the present invention, produces contractions in skeletal muscles of a target to impede locomotion by the target. The apparatus is used with a provided deployment unit that deploys an electrode away from the apparatus. The electrode conducts a current through the target. The apparatus includes a terminal; a producing sub-system for producing an electric arc to warn the target without conducting a current through the target; a conducting sub-system for conducting the current in series through the terminal and through the target; an initiating sub-system for initiating deployment of the electrode; and an operator interface. The operator interface facilitates selecting one or more cartridges of a set of cartridges to provide a stimulus signal to a target and/or display an arc.
An electronic control device for interfering with locomotion by a human or animal target includes a processor and stimulus signal generator. Upon engagement of a trigger by an operator, a stimulus signal is provided to electrodes for a time period to interfere with the skeletal muscles of the target. An indication is provided to the operator corresponding to the time period to alert the operator before deactivation of the stimulus signal. In response to the alert, the operator may reengage the trigger to continue or resume the stimulus signal.
An electronic control device for interfering with locomotion by a human or animal target includes a processor and stimulus signal generator. Upon engagement of a trigger by an operator, a stimulus signal is provided to electrodes for a time period to interfere with the skeletal muscles of the target. An indication is provided to the operator corresponding to the time period to alert the operator before deactivation of the stimulus signal. In response to the alert, the operator may reengage the trigger to continue or resume the stimulus signal.
An apparatus, according to various aspects of the present invention, produces contractions in skeletal muscles of a target to impede locomotion by the target. The apparatus is used with a provided deployment unit that deploys an electrode away from the apparatus. The electrode conducts a current through the target. The apparatus includes a detector that detects indicia describing the deployment unit and a processing circuit that performs a function of the launch device in accordance with the indicia.
A deployment unit for an electronic control device (ECD) used as a weapon provides a current from a signal generator of the ECD through tissue of a human or animal target. The deployment unit includes a housing, an interface, a filament, and an electrode. The interface couples the housing to the signal generator. The filament includes a first end coupled to the interface for receiving the current and comprises a second end. The filament conducts the current for inhibiting voluntary movement by the target. The electrode, stored in the housing prior to deployment, mechanically couples the filament to the target when deployed. The electrode includes an assembly of a first part and a second part that after assembly cooperate to bind the second end of the filament to the electrode.
An apparatus interferes with voluntary locomotion of a target by conducting a current through the target. The apparatus includes a current delivery circuit, a detector, and a processor. The current delivery circuit delivers the current in accordance with a goal for causing pain or skeletal muscle contractions that interfere with voluntary locomotion by the target. The detector detects the current delivered through the target to provide a result. The processor adjusts the goal in accordance with a binary search in response to the result.
Systems and methods for presenting incident information provided by video devices and electronic weapons. Information may be selected for presentation by a machine or a human operator. Information from video devices and/or electronic weapons may be temporally aligned (e.g., synchronized) for presenting events that occurred in a temporally related manner. Information for aligning may be collected by a server and/or a video device.
An apparatus for interfering with locomotion of a target by conducting a current through a load that includes an ionizable path. The apparatus includes, according to various aspects of the present invention, detectors and a processing circuit that determines a status of an electrical connection with the load.
G06F 19/00 - Digital computing or data processing equipment or methods, specially adapted for specific applications (specially adapted for specific functions G06F 17/00;data processing systems or methods specially adapted for administrative, commercial, financial, managerial, supervisory or forecasting purposes G06Q;healthcare informatics G16H)
G01R 19/00 - Arrangements for measuring currents or voltages or for indicating presence or sign thereof
F41B 15/04 - Batons; Truncheons; Sticks; Shillelaghs with electric stunning-means
G01R 31/02 - Testing of electric apparatus, lines, or components for short-circuits, discontinuities, leakage, or incorrect line connection
51.
Systems and methods for electrodes for insulative electronic weaponry
An electronic weapon with an installed deployment unit, from which at least one tethered electrode is launched, provides a stimulus current through a target to inhibit locomotion by the target. The wire tether, also called a filament, conducts the stimulus current. The one or more electrodes, according to various aspects of the present invention, perform one or more of the following functions in any combination: binding the filament to the electrode, deploying the filament from the deployment unit, coupling the electrode to the target, and distributing a current density with respect to a region of target tissue and/or a volume of target tissue. For an electrode that includes a body and a spear, the spear may be implemented with conductive rings or with materials that include integrated conductive and insulative substances (e.g., conductive fibers in insulative composite material). Relatively high electric field flux density at a tip of the spear may be reduced or avoided by practice of the invention.
An electronic weapon with an installed deployment unit, from which at least one tethered electrode is launched, provides a stimulus current through a target to inhibit locomotion by the target. The wire tether, also called a filament, conducts the stimulus current. The one or more electrodes, according to various aspects of the present invention, perform one or more of the following functions in any combination: binding the filament to the electrode, deploying the filament from the deployment unit, coupling the electrode to the target, and distributing a current density with respect to a region of target tissue and/or a volume of target tissue. For an electrode that includes a body and a spear, the spear may be implemented with conductive rings or with materials that include integrated conductive and insulative substances (e.g., conductive fibers in insulative composite material). Relatively high electric field flux density at a tip of the spear may be reduced or avoided by practice of the invention.
A system detects that an electronic control device for inhibiting use of skeletal muscles by a human or animal target has been used. The system includes a radio receiver and a circuit. The electronic control device causes a radio signal when used. The circuit detects a plurality of properties of a received radio signal and outputs a signal in response to comparing the received properties to expected properties.
An electronic weapon with an installed deployment unit, from which at least one wire- tethered electrode is launched, provides a stimulus current through a target to inhibit locomotion by the target. The wire tether, also called a filament, conducts the stimulus current. The one or more electrodes, according to various aspects of the present invention, perform one or more of the following functions in any combination: binding the filament to the electrode, deploying the filament from the deployment unit, piercing material or tissue at the target, lodging in material or tissue of the target, focusing an electric field prior to ionization or while conducting a stimulus current, forming an ionized path for a stimulus current across one or more gaps, and spreading a current density with respect to a region of target tissue and/or a volume of target tissue. For an electrode that includes a body, spear, and filament, spreading may be accomplished by an end portion of the filament that extends forward of the body and activates the spear by ionization of air or by conduction through target tissue.
An electronic weapon may be used with a unit for deployment to cause skeletal muscle contractions in a human or animal target. The unit for deployment when electrically coupled to the electronic weapon, may include at least two electrodes, an indicator, and a propellant for deploying the electrodes to enable delivery, through the target, of a stimulus current to incapacitate the target by causing contractions of the skeletal muscles of the target. The indicator indicates, to the electronic weapon, indicia of a first property of the unit for deployment prior to operating the propellant, and indicia of a second property of the unit for deployment after operating the propellant. Another unit for deployment includes at least two electrodes, an indicator, and a stimulus signal generator, coupled to the electrodes to enable delivery, through the target, of a stimulus current to incapacitate the target by causing contractions of the skeletal muscles of the target. The indicator indicates, to the electronic weapon, indicia of a first property of the unit for deployment prior to operating the stimulus signal generator, and indicia of a second property of the unit for deployment after operating the stimulus signal generator.
A primary subsystem communicates to a secondary subsystem a description of an incident. The primary subsystem includes a detector, a user interface, and a recorder. The detector detects data related to the incident. The user interface determines a revision related to the data. The recorder records the data and the revision for communication to the secondary subsystem.
G06F 7/08 - Sorting, i.e. grouping record carriers in numerical or other ordered sequence according to the classification of at least some of the information they carry
G06F 7/24 - Sorting, i.e. extracting data from one or more carriers, re-arranging the data in numerical or other ordered sequence, and re-recording the sorted data on the original carrier or on a different carrier or set of carriers
58.
APPARATUS AND METHODS FOR CONDITIONAL ACTIVATION OF A CARTRIDGE
A weapon conditionally activates a cartridge. The cartridge has a projectile and a first mechanical feature. The weapon includes an activator and a station. The activator includes a second mechanical feature. The station positions the cartridge so that the first feature opposes the second feature. On condition that the first feature does not mechanically interfere with the second feature, the activator activates the cartridge to launch the projectile from the cartridge. On condition that the first feature mechanically interferes with the second feature resulting in an excess head space, the activator is inhibited by the excess head space from activating the cartridge.
F42B 30/00 - Projectiles or missiles, not otherwise provided for, characterised by the ammunition class or type, e.g. by the launching apparatus or weapon used
59.
SYSTEMS AND METHODS FOR A PROJECTILE HAVING A STABILIZER FOR SPIN STABILIZATION
A round, according to various aspects of the present invention, launches an electrified projectile for spin stabilized flight. The projectile provides a current through a target to incapacitate the target by causing skeletal muscle contractions. The projectile includes a body and a stabilizer. The stabilizer has a first torsion stored along a first axis and a second torsion stored along a second axis. Torsions are released to deploy the stabilizer and to bias the stabilizer during flight.
F42B 10/00 - Means for influencing, e.g. improving, the aerodynamic properties of projectiles or missiles; Arrangements on projectiles or missiles for stabilising, steering, range-reducing, range-increasing or fall-retarding
F42B 15/01 - Arrangements thereon for guidance or control
60.
SYSTEMS AND METHODS FOR DEPLOYING AN ELECTRODE USING TORSION
An electrified projectile, according to various aspects of the present invention, delivers a current through electrodes and through a human or animal target. The projectile stows the electrodes with a film and deploys the electrodes in the absence of the film. Deployment is accomplished by a release of torsion. A spur may include two electrodes and a loop. The spur may store the torsion and conduct the current.
An apparatus (100) for interfering with locomotion of a target (1 14) by conducting a current through the target includes according to various aspects of the present invention a transformer, a capacitance, a charge detector (120), and a processor (102). The transformer has a secondary winding that is coupled to the target to provide the current. The capacitance is in series with the secondary winding and is charged to a voltage. The charge detector detects a charge provided through the target by the capacitance and the secondary winding. The processor sets the voltage (e.g., for charging for a next pulse) responsive to the charge detected by the charge detector.
F41B 15/04 - Batons; Truncheons; Sticks; Shillelaghs with electric stunning-means
F41C 9/00 - Other smallarms, e.g. hidden smallarms or smallarms specially adapted for underwater use
F42B 30/00 - Projectiles or missiles, not otherwise provided for, characterised by the ammunition class or type, e.g. by the launching apparatus or weapon used
Systems and methods inhibit locomotion of a human or animal target in a denial zone. Acquiring the target includes forming a prediction of at least two locations of impact on the target and testing the prediction according to criteria that may include whether the locations are within a boundary corresponding to the target and whether the locations are separated by a minimum physical and/or electrical distance.
A product is sold at retail in an unusable state. Activation fo the product does not require any steps be taken by the retail seller. To activate the product, the purchaser uses a phone or personal computer to interact with a registration server for this type of product. After the consumer has provided sufficient identifying information, the registration server interacts with a qualification server that determines whether the purchaser meets the qualifications set for this type of product. For a weapon sale, this is typically a criminal background check. If qualified, the registration server receives an indication of qualification from the qualification server. The registration server and product communicate over a network to establish trust, store information in the product, and then activate the product. The product receives information via a network appliance, for example, a phone or personal computer. The receiver may sense sound from a speaker or light from a display of the network appliance. The product transmits information onto the network directly when the network appliance has a suitable receiver. Otherwise, the product provides the information to the purchaser who enters the information into a user interface of the network appliance. The user interface may perform voice recognition or accept data via a pointing device or keyboard. The serial number of the product is transmitted to the registration server. A description of the purchaser and/or qualification results are stored in the product.
An apparatus (100) produces contractions in skeletal muscles of a target to impede locomotion by the target. The apparatus is us with a provided deployment unit (104) that deploys an electrode away from the apparatus (100). The electrode conducts a current through the target. The apparatus (100) includes a bus (306), a plurality of ports (107) and a controller (130). Each port couples a module (105) to the bus. The controller (130) is coupled to the bus to communicate with each module (105) to determine a descript of each module.
A launch device, according to various aspects of the present invention, stuns a target. The launch device includes a detector and a processing circuit. The detector detects indicia from a provided deployment unit. The deployment unit deploys an electrode to stun the target. The processing circuit performs a function of the launch device in accordance with the indicia. A method, according to various aspects of the present invention, is performed by a launch device that stuns a target. The method includes in any practical order: (a) detecting indicia from a deployment unit that deploys an electrode to stun the target; and (b) performing a function of the launch device in accordance with the indicia.
An deployment unit for a provided electronic weapon includes a mechanism or circuit that describes the deployment unit to the electronic weapon and a mechanism or circuit that propels a first electrode of the deployment unit in response to the electronic weapon. The first electrode conducts a current through a human or animal target to impede locomotion by the target.
An electronic nonlethal weapon includes a first control that initiates a launch function, a second control that does not initiate any launch function, and a signal generator. In response to the second control, the signal generator either provides an arc to warn the target or stuns the target For example, in use, the weapon may cooperates with a deployment unit having first and second electrodes. The first control in a first operation initiates launching of the first electrode toward a first target. The first control in a second operation initiates launching of the second electrode toward a second target. The signal generator, responsive to one operation of the second control, provides a first current through the first electrode to stun the first target and provides a second current through the second electrode to stun the second target.
An apparatus (100) for interfering with locomotion of a target by conducting a current through a load (102), which includes an energ source (132), an ionization detector (140), a charge detector (184) for detecting a charge provided through the load (102), a controll (104) including a processor (114) for setting a voltage to a next pulse in response to the charge detected by the charge detector (184) and a pulse generator (146) receiving the energy from the energy source (132) for providing a current though the load (102)
A driver (100) includes an energy source circuit (132), an ionization detector (140), a controller (104) and a pulse generator (146) for providing a current through a load circuit (102) including an ionizing path. The controller (104) determines, in response to the detector (140), a respective quantity of energy for each pulse of a plurality of pulses. The pulse generator (146) receives the respective quantity of energy from the energy source circuit (132), provides a voltage to ionize the ionization path and provides the current through the load circuit (102).
A cartridge (108, 304) for use with an electronic control device includes an electrode (342, 343), a propellant (340), a first conductor, and a second conductor. The electrode conducts a current through the target to stun the target. The propellant, when activated, propels the electrode toward the target. The first conductor couples the launch device to the propellant to activate the propellant. The second conductor couples the launch device to the electrode for supplying the current. The propellant is not coupled to the second conductor.
Software (120) hosted on a server (102) aids a user (110) having a possibly defective product (160) at a user workstation (108) coupled by a network (112) to the server (102) in performing diagnostics of the product (160), and as needed, perparing a label (164-) for shipping the product to a service depot for analysis, test, maintenence, repair, upgarde, and/or replacement. The software (120) includes a product support database (130) having records for preparing presentations to the user. As a consequence of the use of the software (120), products (160) are less likely to be sent to the depot, and turnaround time at the depot is reduced, thereby improving customer satisfication with the product and product support.
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