WO2019092443A1 - Appareil et procede de surveillance de defibrillateur - Google Patents

Appareil et procede de surveillance de defibrillateur Download PDF

Info

Publication number
WO2019092443A1
WO2019092443A1 PCT/GB2018/053263 GB2018053263W WO2019092443A1 WO 2019092443 A1 WO2019092443 A1 WO 2019092443A1 GB 2018053263 W GB2018053263 W GB 2018053263W WO 2019092443 A1 WO2019092443 A1 WO 2019092443A1
Authority
WO
WIPO (PCT)
Prior art keywords
defibrillator
battery
data
monitoring
monitoring apparatus
Prior art date
Application number
PCT/GB2018/053263
Other languages
English (en)
Inventor
John Christopher Rees
Original Assignee
John Christopher Rees
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 GBGB1718854.1A external-priority patent/GB201718854D0/en
Priority claimed from GBGB1718853.3A external-priority patent/GB201718853D0/en
Priority claimed from GBGB1719138.8A external-priority patent/GB201719138D0/en
Priority claimed from GB1803247.4A external-priority patent/GB2572941A/en
Priority claimed from GB1812804.1A external-priority patent/GB2576873A/en
Priority claimed from GB1816016.8A external-priority patent/GB2577687A/en
Application filed by John Christopher Rees filed Critical John Christopher Rees
Publication of WO2019092443A1 publication Critical patent/WO2019092443A1/fr

Links

Classifications

    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N1/00Electrotherapy; Circuits therefor
    • A61N1/18Applying electric currents by contact electrodes
    • A61N1/32Applying electric currents by contact electrodes alternating or intermittent currents
    • A61N1/38Applying electric currents by contact electrodes alternating or intermittent currents for producing shock effects
    • A61N1/39Heart defibrillators
    • A61N1/3925Monitoring; Protecting
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N1/00Electrotherapy; Circuits therefor
    • A61N1/18Applying electric currents by contact electrodes
    • A61N1/32Applying electric currents by contact electrodes alternating or intermittent currents
    • A61N1/38Applying electric currents by contact electrodes alternating or intermittent currents for producing shock effects
    • A61N1/39Heart defibrillators
    • A61N1/3904External heart defibrillators [EHD]
    • AHUMAN NECESSITIES
    • A61MEDICAL OR VETERINARY SCIENCE; HYGIENE
    • A61NELECTROTHERAPY; MAGNETOTHERAPY; RADIATION THERAPY; ULTRASOUND THERAPY
    • A61N1/00Electrotherapy; Circuits therefor
    • A61N1/18Applying electric currents by contact electrodes
    • A61N1/32Applying electric currents by contact electrodes alternating or intermittent currents
    • A61N1/38Applying electric currents by contact electrodes alternating or intermittent currents for producing shock effects
    • A61N1/39Heart defibrillators
    • A61N1/3975Power supply

Definitions

  • the present invention relates to monitoring apparatuses, particularly to monitoring apparatuses for use in monitoring emergency care equipment such as defibrillators.
  • a defibrillator is a device that delivers a high energy electric current (often called a countershock) to the heart through the chest wall to someone who is in cardiac arrest.
  • Automated external defibrillators are defibrillators designed for use by untrained or briefly trained laypersons.
  • AEDs contain technology for analysis of heart rhythms. As a result, it does not require a trained health provider to determine whether or not a rhythm is shockable. By making these units publicly available, AEDs have improved outcomes for sudden out-of- hospital cardiac arrests.
  • defibrillators available in public places such as train stations, shopping centres, airport and leisure centres. These defibrillators are often known as public access defibrillators (PAD) as anyone can use them in an emergency.
  • PAD public access defibrillators
  • a defibrillator monitoring apparatus/system for monitoring and reporting defibrillator status comprising, a battery monitoring member arranged to detect battery data from a defibrillator battery, the battery data comprising at least one selected from the group: battery life, charge status, charge frequency, charge length; a location monitoring member arranged to detect location data of said defibrillator; a power supply monitoring member arranged to detect power supply data from a power supply provided to said defibrillator; a memory arranged to store the battery data, the location data and the power data; a processor arranged to process the battery data, the location data and the power data; and a communication member arranged to communicate the battery data, the location data and the power data to a user.
  • the battery data, location data and power supply data can preferably be time-stamped.
  • the processor is arranged to time-stamp the battery data, the location data and/or the power supply data.
  • the processor is arranged to time-stamp stored battery data, the location data and/or the power supply data stored in the memory.
  • the present invention relates to a defibrillator monitoring apparatus to monitor and store information relating to the operation of a defibrillator, and to preferably display and/or transmit information relating to the performance and reliability of the defibrillator during its daily use.
  • the defibrillator monitoring apparatus is arranged to display and/or transmit a communication when a defibrillator, or one or more components of said defibrillator, has reached predetermined thresholds, the predetermined thresholds preferably arranged to warn of an impending and/or possible failure of the defibrillator.
  • defibrillators and especially portable defibrillators, are battery powered.
  • the present defibrillator monitoring apparatus can preferably communicate (display and/or transmit) the amount of battery power used and/or the amount of battery power remaining.
  • Battery thresholds can preferably be programmed into the defibrillator monitoring apparatus, which are preferably arranged to advise, preferably by visible and/or audible means, and to preferably display the total battery life and/or usage.
  • the battery recharging process in defibrillators is important in that the battery can only sustain a certain number of recharges in its operational lifetime. Correctly recharging the battery is also therefore important, in that a particular incidence, or incidences, of recharging of the battery which does/do not conform to a manufacturer's recommendations can have the potential to reduce the life and/or efficiency of the battery.
  • Monitoring the recharging information preferably using the battery data and/or the power supply data of the monitoring apparatus of the present invention, will preferably give further advantages to the life of the battery. Such advantages are preferably provided using the present invention if the battery data and/or power supply data is recorded, displayed and/or relayed to a manufacturer and/or a supplier of a defibrillator.
  • the battery data and/or power supply data is preferably useful to a manufacturer in that the resulting information can preferably indicate the lifetime use of a defibrillator.
  • the defibrillator monitoring apparatus of the first aspect of the present invention is arranged to be programmed for, and is also preferably modifiable to suit, any type of defibrillator.
  • the defibrillator monitoring apparatus of the first aspect is arranged to be retrofit into any type of defibrillator, and preferably therefore no further modifications and/or altered programming are required for such retrofitting.
  • Different types of defibrillators exist, and the programmable or retrofit monitoring apparatus preferably allows the same monitoring apparatus to be used on a variety of defibrillators.
  • battery data, power supply data, and/or location data relating to the usage of a defibrillator can preferably be compiled in a periodic (daily, weekly or monthly, for example) report.
  • a periodic (daily, weekly or monthly, for example) report Preferably such as report may show, inter alia, whether said defibrillator has been used; whether the defibrillator is still in adequate working order; whether the defibrillator has been moved; whether the defibrillator power supply is working correctly; whether the defibrillator has been charged incorrectly; the frequency of use; the frequency of charging; the battery level; the battery status; the power supply status.
  • Up-to-date information relating to defibrillator battery power, and/or defibrillator battery recharges can preferably be analysed using the battery data, the power supply data, the location data, and/or said report, and preferably acted on where necessary.
  • a defibrillator monitoring apparatus is incorporated into a nonportable, and/or fixed defibrillator, which may preferably be connected to mains power
  • the defibrillator monitoring apparatus is preferably arranged to recognise when said defibrillator is disconnected from a power supply of said defibrillator (which may, for example, be mains power) and the communication member will preferably communicate a visible and/or audible alarm.
  • the defibrillator monitoring apparatus comprises a communication member arranged to communicate wirelessly, a message and/or an alert may preferably be sent automatically to a remote receiver, which may for example be a collection point or points.
  • the apparatus of the present invention preferably provides the advantage of automatic worldwide satellite monitoring of a plurality of defibrillators monitoring apparatuses and/or defibrillators. Such monitoring may preferably occur continuously, for examples 24 hours per day, 7 days per week, compared with some presently available systems which require sequential manual checking of defibrillators, one by one, periodically (for example, monthly).
  • the communication member of the apparatus of the first aspect is preferably arranged to communicate messages according to the battery data, the location data and/or the power supply data.
  • the memory is preferably arranged to store information input by an input member, the input preferably being detected by an input detection member.
  • a service engineer can preferably input service data relating to the service, which may preferably be time-stamped.
  • the defibrillator monitoring apparatus can therefore preferably provide automatic service reminders according to the battery data, location data, power supply data and/or input service data, each of which may preferably be time-stamped.
  • Regular and/or continuous monitoring of battery data and/or power supply data may preferably highlight usage and preferably further inform of any misuse or faulty recharging. Therefore such monitoring may preferably provide longer life of batteries. This is preferably advantageous as defibrillator batteries are often expensive to repair or replace.
  • Location data can preferably enable geo fencing of a defibrillator monitoring apparatus and/or defibrillator. As such, used or stolen units can preferably be tracked and recovered with relative ease.
  • Preferably communication of battery data, location data, power supply data and/or input service data may be carried out wirelessly. Therefore, preferably said data can be transmitted to a remote receiver automatically once said defibrillator monitoring apparatus and/or a defibrillator are installed. Remote detection of misuse and/or faulty defibrillator monitoring apparatuses and/or defibrillators can preferably reduce the frequency of retrievals of defibrillator monitoring apparatuses and/or defibrillators being required.
  • a defibrillator monitoring apparatus and/or defibrillator are incorporated into a defibrillator monitoring system
  • said system is preferably arranged to map functioning defibrillators for the purpose of informing a user of the nearest functioning defibrillator.
  • early detection of faulty defibrillator monitoring apparatuses and/or defibrillators can preferably permit the removal of said faulty goods from any said mapping system until a repair or replacement of said goods is carried out.
  • said removal of faulty goods and replacement of repaired or replaced goods into said mapping system is performed automatically by said system.
  • the battery data, location data, power supply data and/or input service data can be used to determine a location of a, or each, defibrillator monitoring apparatus and/or defibrillator, which may optionally be an area (for example a geo-fenced area) and/or an exact location.
  • said location can be used for automatic mapping of said defibrillator monitoring apparatus and/or defibrillator, which may optionally be carried out upon installation of said defibrillator monitoring apparatus and/or defibrillator.
  • the battery data, location data, power supply data and/or input service data can be used to determine when a, or each, defibrillator monitoring apparatus and/or defibrillator is in requirement of a service, which may optionally be according to a predetermined schedule.
  • Requirement for a service may optionally be determined through automatic detection, said automatic detection optionally including a detection of a faulty, malfunctioning and/or soon-to- be malfunctioning component of said defibrillator monitoring apparatus and/or defibrillator.
  • the battery data, location data, power supply data and/or input service data can be used to determine if a battery comprised within a, or each, defibrillator monitoring apparatus and/or defibrillator is fully charged.
  • said data may be used to determine is said battery has no charge. Further optionally said data may be used to determine an exact charge level of said battery.
  • the battery data, location data, power supply data and/or input service data can be used to determine when said battery was recharged and/or replaced.
  • the battery data, location data, power supply data and/or input service data can be used to determine whether pads comprised within a, or each, defibrillator have been removed, which may include a time and/or location of such an event.
  • pads will be understood by the skilled addressee to mean a defibrillation pad used by a user of a defibrillator to facilitate cardioversion and defibrillation, and may be further arranged to permit electrocardiogram (ECG) monitoring and external pacing.
  • ECG electrocardiogram
  • Constant monitoring can, for example, preferably improve cost effectiveness by informing monitoring personnel; a defibrillator servicing company; and or a manufacturing company, of more about the daily activities of defibrillators, resulting in earlier detection of impending faults and/or failures.
  • Servicing costs can also preferably be reduced, potentially by detecting problems, faults and malfunctions early, before further cumulative or cascading damage occurs.
  • Monitoring battery data on defibrillators can preferably enhance battery life, potentially by avoiding overcharging or misuse. Faulty defibrillators can cost lives, which could result in expensive legal costs.
  • a monitoring apparatus according to the present invention can preferably reduce the likelihood of loss of life as a direct result of a malfunctioning or misused defibrillator.
  • the communication member comprises at least one selected from the group: a local communication member; a remote communication member.
  • the local communication member is a display screen and/or a short-range wireless communication transceiver.
  • the short-range wireless communication transceiver is a BluetoothTM transceiver.
  • the remote communication member is one selected from the group: a radio transceiver; a wireless transceiver; a mobile communications technology transceiver; a GPS transceiver.
  • the wireless technology may include any suitable wireless technology, examples of which are GSM, GPS and/or Bluetooth technology, into the monitoring apparatus.
  • the location data preferably permits the defibrillator monitoring apparatus, and therefore preferably a defibrillator, to be geo-fenced.
  • a message can preferably be automatically sent by way of the communication member to a manufacturer or supplier of the defibrillator monitoring apparatus and/or defibrillator, informing them of its movement.
  • the apparatus further comprises an alerting member arranged to transmit an alert to a remote receiver according to the battery data, the location data or the power supply data.
  • messages and/or alerts which may preferably comprise the battery data, the power supply data and/or the location data, can preferably be sent to a remote receiver, which may for example be a collection point such as, for example, an emergency medical services or a service centre.
  • a remote receiver which may for example be a collection point such as, for example, an emergency medical services or a service centre.
  • medical personnel could then react to this situation.
  • GPS GPS
  • the apparatus further comprises an on-board user input detection member arranged to detect input from a user, wherein the alerting member is arranged to transmit an alert to a remote receiver according to the input.
  • the communication member is arranged to receive an acknowledgement, the acknowledgement being receivable following an alert.
  • the communication member is arranged to communicate the acknowledgement to a user.
  • the communication member may be in further digital communication with an input detection member arranged to detect an input from a user.
  • the input detection member may, in some embodiments, detect input from a user by way of activation of an emergency call switch.
  • the communication member is arranged to send a message and/or alert, preferably identifying the status of an emergency situation.
  • any alert comprises the location data.
  • a defibrillator comprising a defibrillator monitoring apparatus in accordance with the first aspect of the present invention.
  • a defibrillator monitoring system comprising a defibrillator monitoring apparatus in accordance with the first aspect of the present invention; and at least one defibrillator; the defibrillator monitoring system further comprising a remote receiver arranged to receive and process the battery data; the location data; and the power supply data.
  • the defibrillator comprised within the system of the third aspect is in accordance with a defibrillator of the second aspect of the present invention.
  • a defibrillator monitoring apparatus in accordance with the first aspect of the present invention, the method comprising the steps of:
  • the method further comprises the step of :
  • the alert is transmitted when the defibrillator is in use.
  • the method further comprises the step of :
  • the method further comprises the step of :
  • the personnel comprises at least one selected from the group: defibrillator service engineer; emergency service personnel.
  • FIG. 2 is a schematic representation of an example defibrillator according to the second aspect of the present invention
  • FIG. 3 is a flow chart of steps of an example method according to fourth aspect of the present invention.
  • FIG. 1 shows a schematic view of an example embodiment of a defibrillator monitoring system in accordance with the third aspect of the present invention, comprising a defibrillator of the second aspect incorporating a defibrillator monitoring apparatus of the first aspect.
  • the example system shown in FIG. 1 is arranged to perform the method of the fourth aspect of the present invention.
  • the system comprises a standard defibrillator 1 .
  • the defibrillator 1 comprises a defibrillator monitoring apparatus 2 having a housing accommodating a battery monitoring member (not shown), a location monitoring member (not shown) and a power supply monitoring member (not shown).
  • the housing of the defibrillator monitoring apparatus 2 further comprises a memory, a processor and a wireless communication member taking the form of a GSM module arranged to communicate with a remote receiver by GSM (Global System for Mobile communication) via a GSM cell tower 3.
  • the remote receiver in the embodiment shown is a service centre having a server 4 arranged to receive the signal from the communication member of the defibrillator monitoring apparatus 2.
  • the battery monitoring member is in digital communication with a battery comprised within the defibrillator 1 and is arranged to detect a status of said battery.
  • the status in the embodiment shown includes information on the battery level.
  • the location monitoring member in the embodiment shown is a GPS module.
  • the defibrillator 1 is connected to a power supply (not shown), comprising a mains power connector used to recharge a battery (not shown) comprised within the defibrillator 1 .
  • the defibrillator 1 of FIG. 1 comprises an external defibrillator monitoring apparatus 2.
  • the communication member in the embodiment shown is arranged communicate with a remote server 4 which is arranged to collect data transmitted, and to correspondingly arranged to process said data, or alternatively to transmit said data to one or more of a computer 5, a tablet device 6, a laptop 7 and a mobile telephone 8.
  • each of the computer 5, a tablet device 6, a laptop 7 and a mobile telephone 8 are arranged to process and/or display said data to a user.
  • Said processing in the embodiment shown, includes identifying changes in said data to inform a user of the functionality of said defibrillator.
  • the defibrillator 1 In use the defibrillator 1 is located in an easy-access location and is therefore arranged to be accessed by an individual in a case of an emergency out-of-hospital cardiac arrest. In such an emergency, a user would locate the defibrillator 1 , disconnect said defibrillator 1 from a docking point or charging point, and transport said defibrillator 1 to the individual in need of emergency care. The user would then proceed to perform emergency care on said individual. During application of emergency care by the user to the individual using said defibrillator, the user may activate an emergency call button (not shown) located on the housing of said defibrillator.
  • an emergency call button not shown
  • the power supply data detected by said power supply monitoring member and/or the battery data detected by said battery monitoring member will change to represent the disconnection.
  • the location data detected by the location monitoring member will change.
  • the communication member is arranged to transmit said battery data, said power supply data and said location data to the remote receiver, which is in turn arranged to detect said change and act accordingly.
  • the change in the battery data, power supply data and/or location data is, for example, used to inform the dispatch of an emergency medical team to the location of the individual. Following activation of the emergency call button by the user, the communication member is arranged to transmit an alert to the remote receiver.
  • the remote receiver which in the case of the embodiment shown is a server 4, routes the communicated alert to a computer 5 located in an emergency service centre (not shown).
  • the emergency service centre may then respond to the alert by transmitting an acknowledgement of said alert to the communication member.
  • Said acknowledgment in the embodiment shown in FIG. 1 , is in the form of text to be displayed on the display screen. Said text informs the user that emergency service team are on their way.
  • the communication member is arranged to provide two-way communication between a user and a remote receiver, and may in some embodiments comprise a speaker and microphone for verbal communication. Referring to FIG.
  • a defibrillator 9 is shown in accordance with the second aspect of the present invention, into which is fitted a defibrillator monitoring apparatus 10 in accordance with the first aspect of the present invention.
  • the defibrillator 9 comprises a battery 12 and a display 13.
  • the defibrillator monitoring apparatus 10 comprises a locating member 1 1 taking the form of a GPS module arranged to provide location data, and a communication member 14 and alerting member 14 taking the form of a GSM transceiver.
  • the defibrillator further comprises an emergency call switch 15, which is in digital communication with the defibrillator monitoring apparatus 14 and is arranged to provide a messaging/alerting function.
  • the communication member 14 and the alerting member 14 are the same. Embodiments will be a appreciated wherein the alerting member and the communication member are different.
  • a method of monitoring a defibrillator comprising a defibrillator monitoring apparatus according to the first aspect of the present invention is provided, the method comprising the steps of: detecting and storing battery data, location data and/or power supply data 16; - processing the stored battery data, location data and/or power supply data 17; transmitting the stored battery data, location data and/or power supply data to a remote receiver 18; and detecting a change in battery data, location data, and/or power supply data 19.
  • the method is use to monitor the status of a defibrillator, facilitated by a defibrillator monitoring apparatus according to the first aspect of the present invention, and substantially as discussed herein.
  • any battery data, location data, power supply data and/or input service data may, in addition to the described features in the Summary of the Invention, optionally be used to determine a travel distance used and/or remaining travel distance available based upon a charge level of a battery (collectively termed "travel data"). Such travel data could optionally be transmitted to, and visualised by a remote receiver.
  • Such travel data could also optionally be used to provide a message or an alert according to one or more predetermined thresholds of said data, such as, for instance, if inadequate battery charge is available for the required distance, an alert may be transmitted to a receiver, which may be a user by way of a visible or audible alert, or may additionally/alternatively be a remote receiver by way of a wireless communication.
  • a receiver which may be a user by way of a visible or audible alert, or may additionally/alternatively be a remote receiver by way of a wireless communication.
  • the present invention relates to a battery monitoring and satellite location system for electric cycles.
  • Battery powered cycles are designed to assist the user to move from point A to point B. In the same way, it would help if the user could know how much battery power has been used to get from point A to point B in order ensure there is sufficient power to return to point A.
  • the remaining power can be displayed for example as a percentage used and a percentage remaining, or displayed as a graph. For example the power used can be calculated as amps multiplied by time and shown as amp hours. A fully charged battery for example could be ten amp hours, and when five amp hours has been used then that would equate to fifty percent used and fifty percent remaining.
  • Programmed thresholds can be introduced into the electronic circuit to give out a visual and or an audible alarm should a threshold be reached.
  • Batteries have a life expectancy based on correct use of the battery, correct recharging of the battery as recommended by the battery manufacturers, and expected number of total amp hours discharged through its entire working life. These features are important if and when a warranty claim is made against the manufacturer or suppliers of the battery or the cycle. Gathering this information and storing this information, and to be able to recall this information when required can be achieved via the memory chip located on the electronic circuit.
  • a GPRS device when added to the electronic circuit can locate the cycle should it get lost or stolen, and by geo fencing the location using for example an app, a message alert can be sent should the cycle be moved from its location, and an audible alarm triggered should the cycle be moved outside of the geo fenced area.
  • a bicycle is provided with a battery pack clamped to the bicycle frame.
  • a battery monitoring device is attached to the battery pack, but could effectively be secured anywhere on the bicycle.
  • a battery pack may be attached to the bicycle frame and the battery monitoring device.
  • the battery monitoring device houses a GPS Module which sends and receives information to and from a global positional system, which in turn sends the information to a server.
  • the server can then send and receive information to and from a computer or a mobile device such as a tablet or mobile telephone.
  • Electric Bikes are powered by batteries which - if not monitored- can leave the user without power should the battery run flat. Being able to monitor the usage of the battery can inform the bicycle user how much stored power has been used but more importantly how much stored power is left in the battery.
  • the amount of stored battery power can also be transmitted to a third party if combined with a means of transmitting this information using GSM or by using GPRS will also give the benefit of locating the bicycle should is be lost or stolen, this can be incorporated into battery monitoring control or by transmitting the information via an Ap within a mobile telephone.
  • a battery monitoring device as described in the previous claims whereby the battery monitor will identify and record recharge information as to the correct and incorrect recharges as set out and recommended by the battery manufacturer.
  • a battery monitoring device as described in the previous claims whereby information relating to the time and date when the battery charging begins and when the battery charger has been electrically disconnected and the charge status at that time.
  • a battery monitoring device as described in the previous claims whereby the information monitored is transmitted to mobile phone device to subsequently transmitted upstream if required.
  • a battery monitoring device as described in the previous claims whereby a battery threshold or thresholds are programmed into the monitoring device so as to give a visual and/or audible warning should the threshold and or thresholds be reached 9.
  • a battery monitoring device as described in the previous claims whereby the threshold warning can be by way of a text message or voice message.
  • a battery monitoring device as described in the previous claims whereby the device can be geo-fenced in that a message can be sent should the monitoring device be moved out of the geo-fenced area.
  • a battery monitoring device as described in the previous claims whereby the geo- fencing can be turned on and off using an identification device such as an RFID reader.
  • the present invention relates to a monitoring system relating to an Oxygen Concentrator to monitor and store information relating to the operation of the Oxygen Concentrator and display information relating to the said performance and reliability of the Oxygen Concentrator during its daily use, and to display and send messages when the equipment has reached preset thresholds that warn an impending and possible failure of the equipment.
  • Oxygen Concentrators especially portable Oxygen Concentrators are battery powered. Low battery power or complete failure of the battery will result in the failure of the Oxygen Concentrator.
  • the system can display the amount of battery power used and or the amount of battery power remaining. Battery thresholds can be programmed into the monitoring device to advise by visual and or audible means and display the total battery life usage.
  • the battery recharges are important in that the battery can only sustain a certain number of recharges in its operational lifetime, and correctly recharging is also important in that recharging the battery and not conform to the manufacturers recommendations can also reduce the life and efficiency of the battery. Monitoring the recharging information will give further advantages to the life of the battery if the information is recorded, displayed and relayed to the user.
  • This information is useful to the manufacturers in that the resulting information can indicate the lifetime use of the Oxygen Concentrator.
  • a person with an Oxygen Concentrator fail to respond to an alert from the monitoring device, then the person could sullen from a medical reaction.
  • wireless technology such as GSM, GPS and or Bluetooth technology
  • messages can be sent to a collection point such as a relative or friend and or a service centre who could react to this situation.
  • GPS GPS
  • the geographical location can also be identified.
  • a message could be sent by the user showing an emergency situation and at the same time the geographical location of the user.
  • the monitoring device is designed to recognise that the oxygen concentrator has been disconnected from the mains power and will suitable set off a visual and or audible alarm. Where the monitoring device is fitted with wireless technology, a message will be automatically sent out to a collection point or points to be acted on accordingly.
  • an oxygen concentrator may be provided, onto which is fitted an intelligent monitoring device which is connected to the oxygen concentrator's control system.
  • the oxygen concentrator/intelligent monitoring device may also comprise a battery, a display, a GPS Module, and an emergency call switch.
  • An example control box enclosure may contain a control PCB.
  • the control PCB preferably contains a memory chip, a Bluetooth module, a battery back-up module, a GPS Module, a programming port, an emergency call switch input connection, a GPS input connection, a power-in connector, and a display.
  • a control box may comprise a GPS/GSM Module, wherein a signal is sent and received via a GSM (Global System for Mobile communication) module for transmitting and receiving information, which in turn sends and receives signals to a remote server, which collects the signalled information and sends and receives the information to a computer, or tablet device, a laptop, or a mobile telephone device.
  • GSM Global System for Mobile communication
  • a spreadsheet may be provided by the apparatus showing typical information gathered from an example oxygen concentrator on a daily basis.
  • An oxygen concentrator that is connected to an intelligent electronic control system whereby the control system will continually power and monitor the status of the amount of oxygen used and remaining in the equipment as well as monitoring the power means and remotely report on any and all irregularities via a GSM and or GPS/GPRS system contained within the control system.
  • An oxygen concentrator that is connected to an intelligent electronic control system whereby the battery means is monitored for low threshold settings and if exceeded then a warning or warnings will be alerted by way of GSM/GPS/GPRS technology to advise of possible failure of the equipment.
  • An oxygen concentrator that is connected to an intelligent electronic control device whereby the control will monitor the battery charge information to ensure the correct re charging is carried out and to monitor and count the number of battery recharges both correct and incorrect as defined by the manufacturers.
  • An oxygen concentrator that is connected to an intelligent electronic control system as described in claim! whereby the control system will continually monitor the mains power to ensure connectivity and to alert the user by audio and or visual means and to remotely report any disconnection via a GSM and or GPS/GPRS system contained within the control system.
  • An oxygen concentrator that is connected to an intelligent electronic control system as described in the previous claims whereby information relating to servicing the oxygen concentrator and control system is displayed on the equipment's display panel and also communicated by GSM and or GPS/GPRS to a server or any receiving station.
  • An oxygen concentrator that is connected to an intelligent electronic control system as described in the previous claims whereby changes and adjustments to the system can be transmitted remotely by GSM and or GPS/GPRS from any person or persons suitably qualified to make any changes and or adjustments.
  • An oxygen concentrator that is connected to an intelligent electronic control system as described in the previous claims whereby different program settings can be stored in the controls memory processor and retrieved and adjusted to suit the medical condition of the patient.
  • An oxygen concentrator that is connected to an intelligent electronic control system as described in the previous claims whereby the electronic control can be fitted with blue tooth technology to allow interaction and communication between one or more oxygen concentrator control systems within the same location.
  • An electronic monitoring device for use with an Oxygen Concentrator whereby the device can monitor, store the information monitored within its memory, and report the workings of the Oxygen Concentrator and communicate the results via a display fitted to the Oxygen Concentrator and a connection input within the monitoring device allows the relay of the said information to be communicated to a collection station such as a P.C., a tablet and or a mobile phone using GPS, GSM, and or BLUETOOTH wireless technology.
  • a collection station such as a P.C., a tablet and or a mobile phone using GPS, GSM, and or BLUETOOTH wireless technology.
  • An electronic monitoring device for use with an oxygen concentrator as described in the previous claims whereby the device is fitted with an alarm that can transmit a message via the GPS module to any number of collection points should the user require emergency attention and the collection point will also receive the geographical position of the oxygen concentrator so that the user can be easily located.
  • An electronic monitoring device for use with an oxygen concentrator as described in the previous claims whereby the device can be programmed to accommodate various types of Oxygen Concentrators and their various thresholds and working parameters.
  • An electronic monitoring device for use with an Oxygen Concentrator as described in the previous whereby the electronic device can be interrogated either directly or by remotely using wireless technology and to be able to modify the settings and thresholds that have been previously programmed into the electronic monitoring device.
  • An electronic monitoring device for use with an oxygen concentrator as described in the previous claims whereby the electronic device can monitor and store the lifetime usage of the battery so as to calculate and display the remaining useful life remains in the battery.
  • An electronic monitoring device for use with an oxygen concentrator as described in the previous claims whereby the electronic device can monitor and store information relating to the number of battery recharges carried out during the life of the battery.
  • An electronic monitoring device for use with an oxygen concentrator as described in the previous claims whereby the electronic device can monitor whether battery recharges are carried out correctly as to the manufacturers recommendations and to subsequently message the user if the recharging has been carried out incorrectly.
  • An electronic monitoring device for use with an oxygen concentrator as described in the previous claims whereby the electronic device can monitor the total power used during the lifetime of the oxygen concentrator which will in turn give an indication of the oxygen used in total.
  • An electronic monitoring device for use with an oxygen concentrator as described in the previous claims whereby if the oxygen concentrator is powered by mains electricity, the electronic device will automatically identify a disconnection of the mains power and set off an audible and or visual alarm, and if fitted with wireless technology, automatically send a message to a collection point or points to be acted upon.
  • the present invention relates an electronic control system for use on water borne vessels such as but not limited to boats, yachts, and barges. Such vessels are fitted with battery power to start and deprive the engines as well as ancillary equipment within the vessel. Examples of the ancillary equipment are lights, flood detection devices, bilge pumps, navigation devices, and alarms. Should any of this equipment fail to operate, it could have a devastating effect.
  • the boat owner can react Immediately to any possible pending failure.
  • the electronic control system Is fitted with a device such as a passive infrared detector to detect the presence of a person or persons who are on the vessel unauthorised, then a message can be sent informing the vessel owner of this event.
  • the vessel With the control system fitted with GPS, the vessel can be geo fenced whilst it is moored. Should the vessel move out of the geo fenced area, then a message can be sent to the vessel owner who can react immediately to this event.
  • Messages can be sent from the control system via the GPS module to one or more collection points such as the vessel owner as well as a service centre where it may be acted on quicker than the vessels owner who may not be local to the position of the vessel.
  • the communication between the vessel and the collection points are communicated via GPS or GSM and this is a two way communication in that the vessel owner for example can access the information on the control system fitted to the vessel, and make electronic adjustments to the control system via the GPS or GSM device.
  • a boat may be fitted with a control system complete with a GPS module, a battery, a flood sensor, a bilge pump, a PIR sensor, and a solar panel.
  • An additional example may comprise a control system, a GPS module, a memory chip, a control battery back-up, a display, an output for the bilge pump, a flood sensor input, and a PIR sensor input.
  • An example may also comprise a satellite transmitting and receiving module, the sensor
  • An example may also comprise a satellite transmitting and receiving module, a server which retains the information received and sent, a computer which receives information from the server, a display, a keyboard, and a mobile receiving and sending device ⁇ 22) such as a mobile phone or tablet.
  • Water vessels such as boats and yachts have in most instances ancillary equipment that require a power means such as a battery to provide a power source to enable the ancillary to property function.
  • ancillary equipment that require a power means such as a battery to provide a power source to enable the ancillary to property function.
  • Such examples include a means to start a motor, detect a leak, power a bilge pump, power lights, security alarms, and many others. Monitoring some or all these ancillaries and communicating their status via wireless technology would be an undoubted advantage.
  • control system can be programmed to geo fence the boats location and to automatically send a message to a collection point should the boat be moved outside of the geo fenced area.
  • control system has an input for a flood detection device that detects the presence of water.
  • the present invention relates to a battery monitoring and satellite location system for emergency traffic lights.
  • Battery powered emergency traffic lights are designed to control traffic in a set sequence usually where road repairs are taking place or where there is an obstruction or obstructions interfering with the flow of traffic. It would help if the supplier and or the installer of the traffic lights to know how much battery power has been used on an hourly or daily basis in order to change or re charge the batteries to avoid power failure and subsequent possible traffic hold ups or collisions.
  • the remaining power can be displayed for example as a percentage used and a percentage remaining, or displayed as a graph.
  • the power used can be calculated as amps multiplied by time and shown as amp hours.
  • a fully charged battery for example could be ten amp hours, and when five amp hours has been used then that would equate to fifty percent used and fifty percent remaining.
  • Programmed thresholds can be introduced into the electronic circuit to give out a visual and or an audible alarm should a threshold be reached.
  • Batteries have a life expectancy based on correct use of the battery, correct recharging of the battery as recommended by the battery manufacturers, and expected number of total amp hours discharged through its entire working life. In some cases where batteries are connected in parallel or in series. One or more of the batteries may become faulty. In this case it is important to identify which battery or batteries are faulty and have them replaces as soon as possible. Failure to replace the faulty battery or batteries, will result in the other batteries becoming faulty. These features are important if and when a warranty claim is made against the manufacturer or suppliers of the battery or the traffic light supplier or installer.
  • a GPRS device when added to the electronic circuit can locate the traffic lights should they get lost or stolen, and by geo fencing the location using for example an Ap, a message alert can be sent should the traffic lights be moved from its location, and an audible alarm triggered should the traffic light be moved outside of the geo fenced area.
  • an emergency traffic light may be provided, with a battery pack contained within a box with a lockable lid with an electric lock and a sensor which can signal that the lock has been opened and closed.
  • the example may further comprise an RFID sensor and an RFID reader which can identify who has activated the lock and where and when that event took place.
  • the example may comprise a monitoring control with display connected to a battery, electric lock, RFID reader and sensors.
  • the example further comprise a GPS module.
  • An example may comprise a battery monitoring device, a PCB memory chip, and a PCB back up battery.
  • the battery monitoring device may connect to a GPS module which sends and receives information to and from a global positional system, which in-turn sends the information to a server.
  • the server can then send and receive information to and from a computer which connects to a display and a keyboard.
  • the server can also transmit and receive to and from a mobile device such as a tablet or mobile telephone.
  • a mobile device such as a tablet or mobile telephone.
  • Also preferably comprised within an example is an output connection for the electric lock, an the input connection for the lock sensor, and an output connection for the RFID reader.
  • Emergency traffic lights as used on roads and highways are powered by batteries which - if not monitored - can mean the traffic lights becoming inoperable should the battery run flat resulting in possible catastrophic situations. Being able to monitor the usage of the battery can inform the supplier and or installer of the traffic lights how much stored power has been used but more importantly how much stored power is left in the battery.
  • the amount of stored battery power can also be transmitted to a third party if combined with a means of transmitting this information using GSM or by using GPRS will also give the benefit of locating the traffic lights should they be lost or stolen, this can be incorporated into battery monitoring control or by transmitting the information via an app within a mobile telephone.
  • a battery monitoring device for use with temporary traffic lights whereby the device an monitor the stored and used power within the battery pack and display the information accordingly and to transmit this and other information to a data collection point using GSM or GPRS technology.
  • the monitoring device stores information to be retrieved relating to the charging of the battery or batteries contained within the traffic light unit.
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby the battery monitor will identify and record recharge information as to the correct and incorrect recharges as set out and recommended by the battery manufacturer.
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby information relating to the time and date when the battery charging begins and when the battery charger has been electrically disconnected and the charge status at that time.
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby the battery monitor stores the life total usage of the battery.
  • a battery monitoring device for use with temporary traffic fights as described in the previous claims whereby the monitoring device includes a means to transmit the information monitored, and to transmit the location of the traffic lights.
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby the information monitored is transmitted to mobile phone device to subsequently transmitted upstream if required.
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby a battery threshold or thresholds are programmed into the monitoring device so as to give a visual and or audible warning should the threshold and or thresholds be reached
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby the monitoring device can be geo-fenced in that a message can be sent should the device be moved out of the geo-fenced area then a message will be sent to a collection point to be acted upon.
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby an alarm will sound should the traffic lights be moved without authorisation outside the geo fenced area.
  • a battery monitoring device for use with temporary traffic lights as described in the previous claims whereby an alarm switch can be linked to the monitoring device so that if activated could send a message in the case of an emergency.
  • a battery monitoring device for use on temporary traffic lights as described in the previous claims whereby an RFID reader is used to identify who has opened and closed the electric lock and when and where that event took place.
  • the present Invention relates an electronic control system for caravans and mobile homes.
  • Such units are fitted with mains power and or battery power to start and drive any motors as well as any ancillary equipment within the caravan and or mobile home.
  • ancillary equipment are lights, heating and air conditioning, door and window alarms, as well as the possible theft of the caravan. Should any of this equipment fall to operate, information can be transmitted automatically to a data collection point that can include smartphones, tablet devices and computers. For example if the battery loses its power it would fail to operate sensors that control the heating or air conditioner, or the security alarms.
  • the caravan owner can react immediately to any possible pending failure of the ancillary equipment and or theft of the caravan. Further, if the electronic control system is fitted with a device such as a passive infrared detector to detect the presence of a person or persons who may have made an unauthorised entry, then a message can be sent informing the caravan owner of this event.
  • a device such as a passive infrared detector to detect the presence of a person or persons who may have made an unauthorised entry
  • caravans can be geo fenced whilst it is parked up. Should the caravan move out of the geo fenced area, then a message can be sent to the caravan owner who can react immediately to this event.
  • the control system is connected to the battery or batteries within the caravan, and loss of this battery power will cause many of the problems indicated in this description. By fitting solar panels to the caravan, it would assist in replacing any battery power used whilst the caravan is left unattended for long periods.
  • Messages can be sent from the control system via the GPS module to one or more collection points such as the caravan owner as well as a service centre where it may be acted on quicker than the caravan owner who may not be local to the position of the site of the caravan.
  • the communication between the caravan and the collection points are communicated via GPS or GSM and this is a two way communication in that the caravan owner for example can access the information on the control system fitted to the caravan, and make electronic adjustments to the control system via the GPS or GSM device. For example an app on a tablet or mobile phone will allow two way communication whilst on the move.
  • a caravan may be provided that is fitted with a control system complete with a GPS module, a battery, a thermostat, a door sensor, a PIR sensor, a solar panel and a fire alarm.
  • the control system may also comprise memory chip, a display, and a control battery back-up.
  • An example may also comprise a satellite transmitting and receiving module, a server which retains the information received and sent, a computer which receives information from the server, a display, a keyboard, and a mobile receiving and sending device, such as a mobile phone or tablet.
  • Caravans and mobile homes have in most instances ancillary equipment that require a power means such as a mains power supply and or a battery and or batteries to provide a power source to enable the ancillary equipment to properly function.
  • ancillary equipment that require a power means such as a mains power supply and or a battery and or batteries to provide a power source to enable the ancillary equipment to properly function.
  • a power means such as a mains power supply and or a battery and or batteries to provide a power source to enable the ancillary equipment to properly function.
  • Such examples include a means to start a motor, detect an illegal entry, power lights, security alarms, and many others.
  • An electronic control system that is fitted to a static or mobile home such as a caravan whereby the control system can monitor the status of the power supply such as mains power and or a battery or batteries and subsequent ancillary equipment connected to the said power supply and or battery or batteries, and communicate the said information collected by the electronic control system via wireless technology such as GSM, GPS, and or Bluetooth type technology and to identify the location of the caravan using satellite technology.
  • the power supply such as mains power and or a battery or batteries and subsequent ancillary equipment connected to the said power supply and or battery or batteries
  • wireless technology such as GSM, GPS, and or Bluetooth type technology
  • control system can be programmed to geo fence the location of the mobile home and to automatically send a message to a collection point should the boat be moved outside of the geo fenced area.
  • An electronic control system as described in the previous claims whereby the electronic control system has an output for connecting an alarm that can detect the presence of a person or persons that may have made an unauthorised entry into the mobile and or static homes, and to communicate that information to a collection point such as a mobile telephone, tablet, and or computer.
  • control system has an input for a flood detection device that detects the presence of water, and to communicate that the flood detection device has been activated.
  • the present invention relates to an electronic control system that is fitted to and connected to a powered vehicle such as a Powered wheelchair, scooter, golf buggie, motor bike and similar powered vehicles.
  • a powered vehicle such as a Powered wheelchair, scooter, golf buggie, motor bike and similar powered vehicles.
  • the control is connected to the vehicles battery system either directly or indirectly and is secured to the vehicle.
  • the control is designed to monitor the vehicles battery voltage and current and to store this information within the controls processor.
  • a means of communication such as GPRS is also fitted to the control with the ability to not only communicate the related information to a computer or mobile device such as a smart phone, but for the computer or smartphone to communicate to the vehicle's electronic control system.
  • the GPRS also has the ability to send geographical positional data relating to the vehicle should the vehicle get lost or stolen.
  • the electronic control system will also be fitted with a means of disabling the battery system remotely should the vehicle be stolen.
  • a tilt switch fitted to the control will identify if the vehicle has fallen over, and the GPRS can immediately report this event as well as the geographical position of the event.
  • An emergency call system can be included by means of a hard wired switch or by a signal from a Bluetooth device, for example the user carrying an alarm activation device.
  • a battery powered vehicle to which is fitted an electronic control system (ECS) and is connected directly or indirectly to the vehicles battery system.
  • ECS electronice control system
  • an ECS may be provided comprising an enclosure with mounting brackets and warning lights to indicate and advise any problems with ECS, and a call switch to send a help message and satellite location.
  • An example enclosure may comprise a printed circuit board which contains a microprocessor for memory and control means, a communication means such as GPS, GSM, or GPRS by way of a SIM CARD, and or Bluetooth technology. Also potentially fitted to the PCB is a tilt switch which can identify if the vehicle has fallen over and report the event and the location immediately.
  • a back up battery may also be fitted to the ECS which will give power to the ECS should the ECS be disconnected from the vehicles battery.
  • a connection for a relay type device may be present for disabling the battery power means, a connection for a tilt switch, and a connection for an emergency call switch.
  • Indicator lights may be fitted to the ECS, and will preferably advise any problems with the ECS.
  • the control also may contain a means of reading the voltage and current of the vehicles battery as well as means of the number of battery recharges, the total amount of battery usage on a daily, weekly and or monthly option.
  • the system may also report on whether the battery recharges have been carried out correctly, and to report the same to Controls memory.
  • Battery powered vehicles such as wheelchairs, scooters, golf buggies, and motorbikes, are subject to failure because they are not re charged when required, and/or not recharged correctly. This could leave the user without power many miles from home.
  • An electronic control fitted to the battery can monitor and advise the status of the battery and by adding a GPS Module or SIM technology, can further advise the location of the vehicle by sending information to a known receiver to acted upon.
  • the user can call for help via an email message and or a text message which will not only advise the message receiver of the need for help but also show the satellite position of the user when the message was sent.
  • the control can again send a message and satellite position should the vehicle fall over.
  • An electronic control that is fitted to a battery powered vehicle whereby the control includes a means to monitor the battery voltage and current and the re charging of the battery historical data and to store this information in a memory processor within the electronic control and a means of GPRS to give location of the vehicle and to allow this information to be sent to a known destination such as a computer and mobile communication system such as a mobile telephone and to allow information to be sent from a computer or mobile communications unit to the electronic control fitted to the powered vehicle.
  • An electronic control that is fitted to a battery powered vehicle as described in claim 1 whereby the electronic control is configured to receive information to disable the powered vehicle should the powered vehicle be lost or stolen.
  • An electronic control system that is fitted to a battery powered vehicle as described in the previous claims whereby one or more minimum battery thresholds can be programmed into the electronic control to allow warnings to be sent should the battery voltage drop to or below the programmed thresholds.
  • An electronic control system that is fitted to a battery powered vehicle as described in the previous claims whereby the electronic control is fitted with a receiving device either hard wired or Bluetooth technology to receive a signal from the user in case of an emergency and where that information is subsequently transmitted by way of d mail message and or a text message in the control's SIM technology and to send the emergency message to a receiver or receivers to be acted upon.
  • a receiving device either hard wired or Bluetooth technology to receive a signal from the user in case of an emergency and where that information is subsequently transmitted by way of d mail message and or a text message in the control's SIM technology and to send the emergency message to a receiver or receivers to be acted upon.
  • An electronic contra system that is fitted to a battery powered vehicle as described in the previous claims whereby the control is fitted with a means to detect disconnection of the control and to transmit that disconnection has taken place.

Landscapes

  • Health & Medical Sciences (AREA)
  • Cardiology (AREA)
  • Heart & Thoracic Surgery (AREA)
  • Engineering & Computer Science (AREA)
  • Biomedical Technology (AREA)
  • Nuclear Medicine, Radiotherapy & Molecular Imaging (AREA)
  • Radiology & Medical Imaging (AREA)
  • Life Sciences & Earth Sciences (AREA)
  • Animal Behavior & Ethology (AREA)
  • General Health & Medical Sciences (AREA)
  • Public Health (AREA)
  • Veterinary Medicine (AREA)
  • Electrotherapy Devices (AREA)

Abstract

L'invention concerne un appareil de surveillance de défibrillateur permettant de surveiller et de signaler l'état d'un défibrillateur. L'appareil comprend un élément de surveillance de batterie conçu pour détecter des données de batterie provenant d'une batterie de défibrillateur, les données de batterie comprenant au moins un élément sélectionné dans le groupe suivant: la durée de vie de la batterie, l'état de charge, la fréquence de charge, la durée de charge; un élément de surveillance d'emplacement conçu pour détecter des données d'emplacement dudit défibrillateur; un élément de surveillance d'alimentation électrique conçu pour détecter des données d'alimentation électrique provenant d'une alimentation électrique fournie audit défibrillateur; une mémoire conçue pour stocker les données de batterie, les données de localisation et les données d'alimentation électrique; un processeur conçu pour traiter les données de batterie, les données d'emplacement et les données d'alimentation électrique; et un élément de communication conçu pour communiquer les données de batterie, les données d'emplacement et les données d'alimentation électrique à un utilisateur. L'appareil de la présente invention atténue de préférence les risques associés aux défibrillateurs actuels.
PCT/GB2018/053263 2017-11-13 2018-11-12 Appareil et procede de surveillance de defibrillateur WO2019092443A1 (fr)

Applications Claiming Priority (14)

Application Number Priority Date Filing Date Title
GB201718682 2017-11-13
GB1718682.6 2017-11-13
GB1718853.3 2017-11-15
GBGB1718854.1A GB201718854D0 (en) 2017-11-15 2017-11-15 Monitor for defibrillator
GB1718854.1 2017-11-15
GBGB1718853.3A GB201718853D0 (en) 2017-11-15 2017-11-15 Boat monitor
GB1719138.8 2017-11-18
GBGB1719138.8A GB201719138D0 (en) 2017-11-18 2017-11-18 Monitor for temporary traffic lights
GB1803247.4 2018-02-28
GB1803247.4A GB2572941A (en) 2018-02-28 2018-02-28 Caravan monitor
GB1812804.1 2018-08-04
GB1812804.1A GB2576873A (en) 2018-08-04 2018-08-04 Vehicle + personal tracker monitor
GB1816016.8 2018-10-01
GB1816016.8A GB2577687A (en) 2018-10-01 2018-10-01 Defibrillator monitoring apparatus and method

Publications (1)

Publication Number Publication Date
WO2019092443A1 true WO2019092443A1 (fr) 2019-05-16

Family

ID=64665579

Family Applications (1)

Application Number Title Priority Date Filing Date
PCT/GB2018/053263 WO2019092443A1 (fr) 2017-11-13 2018-11-12 Appareil et procede de surveillance de defibrillateur

Country Status (1)

Country Link
WO (1) WO2019092443A1 (fr)

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11865352B2 (en) 2020-09-30 2024-01-09 Zoll Medical Corporation Remote monitoring devices and related methods and systems with audible AED signal listening

Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060149323A1 (en) * 2004-12-30 2006-07-06 Merry Randy L Medical device information system
WO2014033605A1 (fr) * 2012-08-29 2014-03-06 Koninklijke Philips N.V. Environnement et système de surveillance d'utilisation pour des dispositifs de survie perfectionnés
WO2015022618A1 (fr) * 2013-08-13 2015-02-19 Koninklijke Philips N.V. Indication automatisée de batterie et système de rétroaction sur la base de conditions environnementale et de données d'utilisation pour gestion et fiabilité améliorées

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US20060149323A1 (en) * 2004-12-30 2006-07-06 Merry Randy L Medical device information system
WO2014033605A1 (fr) * 2012-08-29 2014-03-06 Koninklijke Philips N.V. Environnement et système de surveillance d'utilisation pour des dispositifs de survie perfectionnés
WO2015022618A1 (fr) * 2013-08-13 2015-02-19 Koninklijke Philips N.V. Indication automatisée de batterie et système de rétroaction sur la base de conditions environnementale et de données d'utilisation pour gestion et fiabilité améliorées

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US11865352B2 (en) 2020-09-30 2024-01-09 Zoll Medical Corporation Remote monitoring devices and related methods and systems with audible AED signal listening

Similar Documents

Publication Publication Date Title
US11225221B2 (en) Mobile alert and security system
US5714931A (en) Personalized security system
US7808371B2 (en) Vehicle fleet security system
US6469641B1 (en) Marine vessel monitoring system and method
US5497149A (en) Global security system
TW565962B (en) Storage battery loaded onto vehicle
US20160268805A1 (en) Alternative Powering and Diagnosis of an Accessibility Lift
CN202650211U (zh) 基于北斗卫星定位、3g与4g通信技术的车辆安全监控***
CN108119003A (zh) 用于增强车库门开启器远程控制的***和方法
CN205022458U (zh) 车辆安全监控装置、监控***及车辆
CN106627362A (zh) 一种车内应急报警***及报警方法
JP3125304U (ja) 緊急対応自動販売機
WO2019092443A1 (fr) Appareil et procede de surveillance de defibrillateur
US7834757B2 (en) Method of mobile storage container protection
KR870001305B1 (ko) 경보시스템의 차량 유도장치
CN204161311U (zh) 汽车报警***
US6317041B1 (en) Refuge bay monitoring system
CN110341841B (zh) 一种非机动车防盗及追踪报警***
JP4024653B2 (ja) 盗難通報装置及び緊急通報システム
CN115891880A (zh) 车辆中电瓶电量的控制方法、***、装置和车辆
GB2577687A (en) Defibrillator monitoring apparatus and method
CN205632402U (zh) 一种基于can总线的汽车智能防盗***
CN204857796U (zh) 一种蓄电池结构
CN205186040U (zh) 基于北斗定位及物联网数据传输的车辆牌照及其防盗***
CN104691495B (zh) 无线超长待机的gsm/gps防盗定位报警器及方法

Legal Events

Date Code Title Description
121 Ep: the epo has been informed by wipo that ep was designated in this application

Ref document number: 18819456

Country of ref document: EP

Kind code of ref document: A1

NENP Non-entry into the national phase

Ref country code: DE

122 Ep: pct application non-entry in european phase

Ref document number: 18819456

Country of ref document: EP

Kind code of ref document: A1