A cartridge for a conducted electrical weapon may comprise a body having a first end opposite a second end and an outer surface opposite an inner surface. A cartridge inner assembly may be removably disposed within the body. The cartridge inner assembly may comprise a propulsion module, a plug, a piston, and/or a retaining clip. The cartridge inner assembly may be configured to cause deployment of an electrode. The electrode may be mechanically and electrically coupled to the piston.
A conducted electrical weapon (?CEW?) comprises one or more mechanisms for receiving, aligning, and maintaining a position of a magazine within a bay of the CEW. Bias spring and datums may be used to align the magazine to be coupled to the CEW, wherein bias springs are configured to apply pressure to push the magazine to interact with datums to align the magazine. A spring and ramp mechanism may be used to maintain a position of the magazine coupled to the bay of the CEW. Respective grades of a locking ramp and a release ramp are used to lock a spring in place when a magazine is coupled to the bay of the CEW.
A conducted electrical weapon ("CEW") may deploy electrodes toward a target to electrically couple to the target. The CEW may be configured to detect a connection status of at least one electrode of the deployed electrodes. A positive connection status represents a connection being established between the at least one electrode and the target. The CEW may generate an alert in accordance with the connection status. The alert may one or more of an audible alert, a haptic alert, or a visual alert.
F41B 15/04 - Batons; Truncheons; Sticks; Shillelaghs with electric stunning-means
G08B 7/06 - Signalling systems according to more than one of groups ; Personal calling systems according to more than one of groups using electric transmission
An indication may be automatically provided based on a position of a weapon. The weapon may comprise a conducted electrical weapon ("CEW"). The indication may be provided from an indicator integrated with the weapon. The indication may comprise light emitted from a laser indicator integrated with the weapon. The indicator may be selectively activated in accordance with the position to provide the indication. The indication may be provided when the weapon is oriented in a direction in which a projectile may be deployed toward a remote location. The indication may be automatically provided when the weapon is disposed in a horizontal direction or a range of angles of the CEW. Methods, systems, and devices may selectively provide the indication in accordance with the position.
An electronic restraint device may detect biometric information. The electronic restraint device may compare the biometric information with alert criteria. Based on the comparison, the electronic restraint device may generate an alert. The alert may be transmitted to an electronic device. The alert may be output by the electronic restraint device or the electronic device. The alert may cause the electronic restraint device to modulate a restraint device property.
A61B 5/1455 - Measuring characteristics of blood in vivo, e.g. gas concentration, pH-value using optical sensors, e.g. spectral photometrical oximeters
Holsters of conducted electrical weapons (CEW) comprise a set of magnetic elements. The set of magnetic elements may have positions, polarities, and magnitudes corresponding to types of holsters. The CEW uses sensors to detect one or more of the set of magnetic elements, indicating that the CEW is inserted into the holster. Based on the detected information, the CEW identifies when the CEW is removed from the holster. The CEW additionally uses the detected information to determine a type of holster.
G01D 5/14 - Mechanical means for transferring the output of a sensing member; Means for converting the output of a sensing member to another variable where the form or nature of the sensing member does not constrain the means for converting; Transducers not specially adapted for a specific variable using electric or magnetic means influencing the magnitude of a current or voltage
G08B 21/24 - Reminder alarms, e.g. anti-loss alarms
7.
CARTRIDGE WITH INNER SURFACE GROOVES FOR A CONDUCTED ELECTRICAL WEAPON
A cartridge for a conducted electrical weapon may comprise a body having a first end opposite a second end and an outer surface opposite an inner surface. A projectile may be disposed within the body. The inner surface of the body may define a plurality of grooves extending from the first end of the body to a location within the body.
A magazine for a conducted electrical weapon may include a bore configured to receive a cartridge. The bore may be sized and shaped to receive a cartridge having a specific cartridge type. A cartridge may comprise a cartridge identifier coupled to an outer surface of the cartridge. The cartridge identifier may include a physical property indicating a cartridge type of the cartridge. The cartridge identifier may allow the cartridge to be correctly received into the bore of the magazine.
Magazines of conducted electrical weapons (CEW) comprise a set of magnetic elements having positions, polarities, and magnitudes corresponding to a type of magazine. The CEW uses sensors to detect an indicator magnet indicating that a magazine is inserted into a bay of the CEW. The CEW additionally uses sensors to detect information about the set of magnetic elements and determines, based on the detected information, a type of the magazine.
A conducted electrical weapon may include an interposer. The interposer may be disposed in a bay of the conducted electrical weapon or may be coupled to a magazine insertable within the bay of the conducted electrical weapon. The interposer may include a cartridge separator. The cartridge separator may logically or physically define a plurality of cartridge compartments. Each cartridge compartment may be configured to receive and align with a cartridge loaded into a magazine.
A safety switch for a conducted electrical weapon ("CEW") may be configured to operate between at least one fixed position and at least one momentary position. In response to the safety switch being operated into the at least one momentary position, the safety switch may return to the at least one fixed position. In the fixed position, the safety switch may be configured to perform a firing mode operation. In the momentary position, the safety switch may be configured to perform a non-firing mode operation.
Methods, systems, and devices for controlling a simulation system in accordance with different user inputs are provided. A user input may comprise an audio input, a physical input, or a combination of audio input and physical input. Controlling a simulation system in accordance with different user inputs may comprise presenting a first simulation state, receiving a user input, analyzing a user input, detecting factors of a user input, detecting an intent, matching an intent, updating a simulation state, and/or selecting a second simulation state in accordance with user input. The different user inputs may be received relative to a simulation state. The different user inputs may cause same or different changes to the simulation state.
A conducted electrical weapon ("CEW") comprises one or more switch devices and a charge storage circuit for delivering a stimulus signal via a deployed electrode. A charge may be stored in the charge storage circuit. A first switch device of the one or more switch devices may be selectively turned on according to the charge of the charge storage circuit. The stimulus signal may be delivered via a current flow path comprising the first switch device and the deployed electrode according to the charge of the charge storage circuit.
An accountability control system may be configured to provide one or more accountability controls to a payload platform. A payload platform may comprise a device configured to deploy a payload. The accountability controls may comprise one or more of an authentication control, an authorization control, a custody control, or a security analysis control. The accountability controls may restrict or disable access and operations of the payload platform. The accountability controls may also create a chain of custody of operations and events taking place in the accountability control system and the payload platform.
An electrode may be automatically deployed based on a change associated with a conducted electrical weapon. The change may comprise a change in position. The electrode may be automatically deployed after a previous electrode is deployed from the conducted electrical weapon and the change in position is detected. A position of the conducted electrical weapon may be detected via a position sensor included in the conducted electrical weapon. The change in position may include an angle of orientation. The angle of orientation may be determined between a first direction in which the previous electrode was deployed and a current direction in which the conducted electrical weapon is oriented. The change in position may comprise a distance. The distance may be determined between a first spatial location of the conducted electrical weapon at a which the previous electrode was deployed and a current spatial location of the conducted electrical weapon.
A spherical joint couples an accessory to a support. The spherical joint enables the accessory to be leveled about one or more axes and panned about an axis, such that the accessory may be leveled and panned with respect to a viewing sphere. The spherical joint comprises a collar, a cup, and a ball head, wherein the collar is configured to house the ball head and the ball head is configured to couple to one of an accessory or a support via a mount interface. The ball head further comprises a ball configured to enable rotation of the ball head relative to the collar with respect to one or more axes. The cup is configured to resist rotation of the ball head relative to the collar, such that the spherical joint may be fixed at a suitable orientation.
F16C 11/06 - Ball-joints; Other joints having more than one degree of angular freedom, i.e. universal joints
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
17.
SYSTEMS AND METHODS FOR RAPID LICENSE PLATE READING
System and methods are disclosed for rapid license plate reading. A first image having a first resolution may be generated. A location of a license plate in the first image may be detected. The license plate may be read from a second image in accordance with the location of the license plate. The second image may have a second resolution greater than the first resolution. In embodiments, reading the license plate may comprise tracking the license plate across a plurality of license plate images.
A bumper for preventing a forward portion of an electrode from penetrating a target comprises a rearward portion and an expandable portion. The rearward portion is configured to couple the bumper to a forward portion of an electrode. The expandable portion may comprise a plurality of members. The expandable portion is configured to transition from a collapsed state to an expanded state after being launched toward a target. The expanded state comprises a greater contact area than the contact area of the collapsed state. The greater contact area of the expanded state is configured to distribute a force of impact on the target to prevent penetration into the target. The transition from the collapsed state to the expanded state may be configured to increase a duration of impact with the target, thereby reducing a force of impact on the target to prevent penetration into the target.
A recording system comprises an auxiliary recording device with a first camera and a (primary) recording device with a second camera. The recording device is configured to determine an activation event and to instruct at least one of the first camera to capture a first image or a second camera to capture a second image. Responsive to an image being captured, the recording device receives and stores the captured image. The recording system may comprise a body-worn battery configured to provide power to the recording system. The recording system may comprise a detachable body configured to detachably couple to a main housing body, wherein a camera of the detachable body is configured to capture images when coupled or when detached.
A conducted electrical weapon ("CEW") launches electrodes to provide a stimulus signal through a target to impede locomotion of the target. The CEW may include a motion detector that detects movement of the CEW or the handle of the CEW. In response to the CEW detecting a predetermined movement in accordance with the movement detected by the motion detector, the CEW may perform one or more operations.
A conducted electrical weapon may deploy a single electrode. The single electrode may be deployed in response to a first activation signal of a sequence of activation signals. The conducted electrical weapon may deploy a second electrode in response to a second activation signal of the sequence of activation signals. A signal generator of the conducted electrical weapon may provide a stimulus signal between the single electrode and the second electrode. Deploying the single electrode may include deploying fewer electrodes than a minimum number required by the conducted electrical weapon to provide the stimulus signal at a remote location.
F41H 13/00 - Means of attack or defence not otherwise provided for
F42B 12/36 - Projectiles, missiles or mines characterised by the warhead, the intended effect, or the material characterised by the warhead or the intended effect for signalling
A warning system for a conducted electrical weapon ("CEW") may be configured to alert a target that deployment of the CEW may be imminent. The warning system may include a visual output system and an audio output system. The visual output system may be configured to output a visual warning. The audio output system may be configured to output an audio warning. The visual output system and the audio output system may be activated in response to a control interface of the CEW being operated to an active mode. The visual output system and the audio output system may be deactivated, or not activated, in response to the control interface being operated to a safety mode.
Systems and methods for processing emergency communications are provided. A system may receive an emergency communication initiated by an emergency communicator. The system may detect a data field action in response to an emergency receiver entering a data input based on the emergency communication. The system may capture a timestamp of when the data field action occurred. The system may generate a communication snippet based on the action timestamp and a snippet length. The communication snippet may be configured to provide context from the emergency communication to the data input. The system may transmit the communication snippet and the data input to an emergency responder.
A conducted electrical weapon ("CEW") may launch electrodes toward a target to electrically couple to the target. A CEW may include a signal generator, one or more electrodes, and a selector circuit. The signal generator may include a first conductor and a second conductor, wherein the first conductor has a positive potential and the second conductor has a negative potential. The signal generator may be configured to provide a stimulus signal through the first conductor and the second conductor. The selector circuit may be in electrical series between the signal generator and the one or more electrodes. The selector circuit may be configured to selectively electrically couple an electrode from the one or more electrodes to the first conductor or the second conductor of the signal generator.
A coupler for coupling to a provided article of wear comprises a base plate and a buckle. The base plate may comprise a mount interface configured to couple with a provided body worn camera. The buckle may be configured to couple to the base plate over a provided article of wear to couple the base plate to the provided article of wear. The buckle may comprise a first part, a second part, a first joint, and a lock. The first part may be movably coupled to the second part. The lock may be configured to enable and prevent movement of the first part relative to the second part. In an unlocked state, the lock may enable movement of the first part relative to the second part. In a locked state, the lock may prevent movement of the first part relative to the second part.
A coupler for coupling to a provided article of wear comprises a base plate and a clip. The coupler may be configured to provide a mount interface on an article of wear for an accessory to mount to. The base plate may comprise one or more structures configured to engage one or more respective portions of the clip over the provided article of wear. The clip may be shaped to interlock with the structures of the base plate. The clip may engage the base plate in a series of actions. The series of actions may be repeated in reverse to disengage the clip from the base plate. The series of actions for disengaging the clip from the base plate may reduce a likelihood of the clip in being unintentionally decoupled from the base plate, thereby increasing a likelihood that the coupler remains coupled to an article of wear.
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
27.
METHODS AND SYSTEMS FOR TRANSCRIPTION OF AUDIO DATA
Systems, devices, and methods transcribe words recorded in audio data. A computer-generated transcript is provided. The transcript comprises records for each word in the computer-generated transcript. At least one confirmation input is received for each record. The at least one confirmation input modifies a selected record and automatically identifies a next record for receiving a next confirmation input. A sequence of confirmation inputs may rapidly modify and validate each record in a sequence of records in the computer-generated transcript. A validated transcript is generated from the modified records and is provided from an evidence management system.
A conducted electrical weapon may interchangeably receive a plurality of magazines. A magazine may be releasably engaged with a magazine bay of the conducted electrical weapon. Engagement of a magazine with the magazine bay may expose a bottom surface of the magazine. Each magazine may comprise a plurality of firing tubes. A magazine may be configured to launch at least one electrode from at least one firing tube of the plurality of firing tubes. A control circuit may be configured to provide an ignition signal to less than all of the plurality of firing tubes. A first pair of firing tubes may be oriented to achieve a minimum electrode spread at a first range. A second pair of firing tubes may be oriented to achieve a minimum electrode spread at a second range. The plurality of firing tubes may be arranged in an array comprising a column of firing tubes.
System and methods are disclosed for capturing license plate (LP) information of a vehicle in relative motion to a camera device. In one example, the camera system detects the LP in multiple frames, then aligns and geometrically rectifies the image of the LP by scaling, warping, rotating, and/or performing other functions on the images. The camera system may optimize capturing of the LP information by executing a temporal noise filter on the aligned, geometrically rectified images to generate a composite image of the LP for optical character recognition. In some examples, the camera device may include an image sensor, such as a high dynamic range (HDR) sensor, modified to set long and short exposures of the HDR sensor to capture frames of a vehicle's LP, but without consolidating the images into a composite image. The camera system may set optimal exposure settings based on detected relative speed of the vehicle.
A mount for coupling to an article of wear comprises a back plate configured to engage a front plate over the article of wear. The back plate comprises a first structure and a second structure. The front plate comprises a base configured to receive an accessory, a slide slidably engaged with the base, and a swing rotatably engaged with the base. The base comprises a third structure and a first latch feature. The slide comprises a fourth structure and a first coupler. The swing comprises a second coupler and a second latch feature. The slide is configured to move to engage the third structure with the first structure and the fourth structure with the second structure. The swing is configured to rotate to engage the first coupler with the second coupler and the first latch feature with the second latch feature.
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
G03B 17/00 - APPARATUS OR ARRANGEMENTS FOR TAKING PHOTOGRAPHS OR FOR PROJECTING OR VIEWING THEM; APPARATUS OR ARRANGEMENTS EMPLOYING ANALOGOUS TECHNIQUES USING WAVES OTHER THAN OPTICAL WAVES; ACCESSORIES THEREFOR - Details of cameras or camera bodies; Accessories therefor
31.
METHODS AND APPARATUS FOR A CONDUCTED ELECTRICAL WEAPON
A conducted electrical weapon ("CEW") launches wire-tethered electrodes from multiple cartridges to provide a stimulus signal through a human or animal target to impede locomotion of the target. The CEW may detect the quality of the electrical coupling (e.g., connection) of pairs of electrodes with the target. In accordance with the quality of the connections, the CEW may provide pulses of a stimulus signal to the various connections between electrode pairs in accordance with a sequence. The sequence may provide pulses at a first maximum pulse rate to any one connection to increase the likelihood of inducing neuromuscular incapacitation ("NMI") and to save energy. The sequence may provide pulses to all connections at a second maximum pulse rate to increase the likelihood of inducing NMI and to save energy.
A conducted electrical weapon ("CEW") deploys wire-tethered electrodes after generation of an ignition signal. The ignition signal is provided to a deployment unit. The deployment unit includes a primer material adjacent a conductor. The conductor conducts the ignition signal outside the primer material. A temperature of the conductor increases in response to receiving the ignition signal. The primer material ignites in response to the increase in temperature of the conductor.
System and methods for aligning event data recorded by recording devices. Recording devices create, transmit, and store alignment data. Alignment data created by a recording device is stored in the memory of the recording device with a time that is maintained by the recording device and that is relative to the time of event data recorded by the recording device that creates the alignment data. Recording devices further receive and store transmitted alignment data. Alignment data received by a recording device is stored in the memory of the recording device with a time that is maintained by the receiving recording device and that is relative to the time of event data recorded by the recording device that creates alignment data. Stored alignment data may be used to align the playback of event data of devices that have the same alignment data. Alignment data may include information as to the recording status of the device that transmits the alignment data. Recording status may be reported.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
Systems and methods for analyzing recorded data from one recording device, or a subset of recording devices to identify redactions that should be made to the recorded data. The identified redactions may be in accordance with a redaction policy. The identified redactions may be applied to recorded data recorded by other devices that recorded data the same incident. The redactions may be made to recorded data that was not analyzed prior to performing the redactions, so the redactions identified in one recorded data are performed in other recorded data that was not used to identify the types of redactions that should be made. Applying redactions to data that was not analyzed to determine what types of redactions should be made reduces the amount of time required to analyze recorded data for redaction.
The number of pulses of a stimulus signal provided by a conducted electrical weapon ("CEW") between launch and establishing an electrical circuit with a human or animal target may be counted to determine the distance between the CEW and the target and the distance between electrodes launched by the CEW toward the target while positioned in or near target tissue.
A conducted electrical weapon ("CEW") impedes locomotion of a human or animal target by providing a stimulus signal through one or more electrodes and through the target. The CEW includes a handle and one or more removable deployment units coupled to the handle. A deployment unit may include a wad, a tensioner, a guide, and posts to improve accuracy of launch of electrodes form the deployment unit.
A detector for detecting the removal and/or insertion of a firearm out of and/or into a holster. The detector may transmit a message each time the firearm is removed from the holster. A recording system may receive the message and determine whether or not it will begin recording the data it captures. A detector may detect the change in a magnitude of an inductance and/or an impedance of a circuit to detect insertion and removal of the firearm into and out of the holster. The holster is configured to couple to the detector to position the detector to detect insertion and removal of the firearm.
An evidence ecosystem that includes a capture system that detects physical properties in the environment around the capture system and captures data related to the physical properties. The capture system analyzes the captured data in accordance with patterns to detect characteristics and patterns in the captured data. Upon detecting a characteristic or a pattern, the capture system records the identified data and alignment data that identifies the location of the identified data in the captured data. The capture system sends the captured data, identified data, and alignment data to an evidence management system for use in generating reports and producing redacted copies of the captured data for distribution or presentation.
H04N 21/231 - Content storage operation, e.g. caching movies for short term storage, replicating data over plural servers or prioritizing data for deletion
40.
SYSTEMS AND METHODS FOR RECOVERING INFORMATION FROM A RECORDING DEVICE
A recording device may record information continuously. Particular events which occur during recording may be of interest for review (e.g. audit, inspection). Events may be audited to ensure that the data gathered is not tampered with or corrupted and to provably establish an evidence chain of custody. Metadata may mark recorded data of an event, in whole or in part, for later review. Metadata may be identified as an audit tag which may identify particular occurrences during an event. An audit tag may be urgent or non-urgent. Notice of an urgent audit tag may be sent to a server prior to sending the recorded data associated with the audit tag. Recorded data may be cryptographically signed to protect the recorded data from tampering.
G08B 13/196 - Actuation by interference with heat, light, or radiation of shorter wavelength; Actuation by intruding sources of heat, light, or radiation of shorter wavelength using passive radiation detection systems using image scanning and comparing systems using television cameras
G08B 15/00 - Identifying, scaring or incapacitating burglars, thieves or intruders, e.g. by explosives
G08B 25/14 - Central alarm receiver or annunciator arrangements
41.
SYSTEMS AND METHODS FOR ASSIGNMENT OF EQUIPMENT TO AN OFFICER
A system for tracking, assigning, and issuing equipment to security agency personnel (e.g., officers, administration, command, armorer). An armorer is assigned the task of tracking, assigning, and issuing equipment. Equipment may be assigned to a particular individual officer. The equipment provided to and used by officers may capture (e.g. gather, produce) information (e.g. audiovisual information, data logs, recordings). Equipment may provide information to the armorer via near field communication (NFC) circuits. The information captured may be used alone or in combination with other information received and stored by an evidence management system. The information captured by equipment assigned to a particular individual may be associated with that individual. An armorer may use information supplied by equipment, evidence management system, officers, or other sources to assist in the assignment process.
H04W 4/80 - Services using short range communication, e.g. near-field communication [NFC], radio-frequency identification [RFID] or low energy communication
G06Q 10/087 - Inventory or stock management, e.g. order filling, procurement or balancing against orders
G08B 1/08 - Systems for signalling characterised solely by the form of transmission of the signal using electric transmission
G08B 25/10 - Alarm systems in which the location of the alarm condition is signalled to a central station, e.g. fire or police telegraphic systems characterised by the transmission medium using wireless transmission systems
System and methods for aligning event data recorded by recording devices. Recording devices create, transmit, and store alignment data. Alignment data created by a recording device is stored in the memory of the recording device with a time that is maintained by the recording device and that is relative to the time of event data recorded by the recording device that creates the alignment data. Recording devices further receive and store transmitted alignment data. alignment data received by a recording device is stored in the memory of the recording device with a time that is maintained by the receiving recording device and that is relative to the time of event data recorded by the recording device that creates alignment data. Stored alignment data may be used to align the playback of event data of devices that have the same alignment data.
In some embodiments, automatic selective enablement of a wireless interface is provided. In some embodiments, a first device such as a recording device broadcasts a notification via a first wireless interface. The notification may be received by a second device such as a network device, which activates a second wireless interface in response. In some embodiments, the second device may transmit a notification via the first wireless interface to indicate that the second wireless interface has been activated. In response to receiving such a notification, the first device may activate its own second wireless interface in order to complete the connection and transmit a data record to the second device. In some embodiments, the first wireless interface is a low-power wireless interface, and the second wireless interface is a high-power wireless interface.
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.
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 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.