CA2975459A1

CA2975459A1 - Human health monitor

Info

Publication number: CA2975459A1
Application number: CA2975459A
Authority: CA
Inventors: John M. Moses
Original assignee: Individual
Current assignee: Individual
Priority date: 2017-08-04
Filing date: 2017-08-04
Publication date: 2019-02-04

Abstract

The invention provides a way for peoples' health to be monitored as they walk down a hallway or through a door frame by tracking their temperatures and by the individuals periodically stopping to give blood samples. An individual's average temperature and the fluctuations to that temperature can state a lot about their health. Keeping track of this information could potentially allow illnesses to be detected earlier. Through cloud-based software, this information is sent to doctors to later use when determining the progression of an illness of a patient or just to monitor the patient. There would be a monitor and speakers available for the user to be able to interface with the system to access their personal health history and if they are a parent, have access to their children's information. Facial recognition would provide a quick way to allow the system to store information about the individual's health.

Description

Background Of The Invention When an individual goes to the doctor's office, one of the most common practices is to have their temperature taken. This information is then used by the doctor to determine if the body's core temperature is within a healthy threshold. Typically, the doctor would use the reading that they get from that one day to help diagnose what the problem could be. However, by using multiple readings that have been done in the weeks leading up to the visit to the doctor's office, the doctor can become more informed if a true temperature fluctuation is present and for how long it has been that way. The doctor can then monitor the patient's temperature over the next week to see if there has been an improvement in their health.
Overall, the doctor can pull up the body temperature data and use it to help diagnose the problem. This monitoring system could be set up in homes and health institutions and would overall help contribute to providing people with quicker answers and relief when it comes to their health.

Summary Of The Invention This invention would consist of an arch structure or a panel that could be setup in a hallway or in a doorway. There would be an option for a monitor to be mounted on the side of this machine which would provide an easy interface for the individual to check in on their body's health status. Also on the wall, there would be a small station setup where the individual could give a blood sample. All of this information would be downloaded to the onsite computer and would also be sent to a cloud server where the individual, health professionals and anyone else with clearance could access it. There would be speakers setup which would provide instructions for the user and would verbally report back the results of the tests. Facial recognition, iris scans, RFID implant recognition and fingerprint protection would provide additional layers of security to ensure personal files are protected. Facial recognition and iris scans would allow the system to automatically record whose temperature and other information they are taking without contact. This system would also be able to provide reminders to the user whether it is for medication and other health related activities, or for their other upcoming activities. This system should be able to work alongside other system's software and/or databases to compile information. Furthermore, this system should be able to communicate and work alongside other mechanical and electrical systems to gather further information or to send information.
There would be an option for a load cell and/or a pressure sensor array to be installed in the floor and/or in the wall. This would allow the individual(s) using this device to record and keep track of their weight and strength over time. The system would have a heart rate monitor and a blood pressure monitor mounted to the wall that would be accessible once the user has verified their identity. With proper implementation in hospitals, this machine could serve as a triage nurse as it would have the option for the individual to insert their health card, and verify their ID through their fingerprint, an iris scan, and through facial recognition, take the patients, temperature, blood pressure, blood sample if necessary, and heart rate. An example of what the blood test could provide is the patient's blood sugar level if the patient is a diabetic.

Detailed Description Of The Invention This invention would consist of an arch or panel structure that could be setup in a hallway or in a doorway. This will house the various electronic components in an organized manner. The ergonomic design would allow for various people of different heights to be able to access all of the components with ease. The arch and panel designs can be seen in figure one (pages 7 and 8).
There would be an option for a monitor to be mounted on the system which would provide an easy interface for the individual to check in on his body's status.
This monitor would either be a touchscreen monitor or be a normal monitor that uses typical peripherals to navigate. The monitor and speaker setup can be seen in figure two (page 8).
Also on the wall, there would be a small station setup where the individual could take a blood sample. This would be designed to ensure it remains sanitary through an automated system that ensures it is clean before each use. The user would not be able to use it until it has been sterilized due to a small locked door that contains the tester. This position of this blood tester can be seen in figure two (page 8). The layout of this blood tester can be seen in figure three (page 9).
All of this information would be downloaded to the onsite computer and would also be sent to a cloud server where the individual, health professionals and anyone else with clearance could access it. The individual would have to go through various levels of security to access the information through the computer mounted on the wall. Parents could also have it so they have access to their children's information. The parents would still have to verify their identity through the various levels of security. Healthcare professionals would have access to this information through an online database. They would need a special individual login for this.
This information communication network is illustrated in figure four (page 10).
There would be speakers setup which would provide instructions for the user and would report back what the results of the tests are. This would be used for the system to communicate with the user. The speakers and a microphone would be used by the user to communicate with their doctor during a virtual appointment or checkup. An example of how this layout may be oriented has been illustrated in figure five (page 11).
Facial recognition, iris scans, RFID implant recognition and fingerprint protection would provide additional layers of security past a typical password to ensure personal files are protected. These additional layers of security are put in place to ensure that not just anyone can have access to private information.
Facial recognition and iris scans would allow the system to automatically record whose information they are taking without contact. This would provide a benefit to the user by allowing them to automatically have their information taken without having to input any password. The robot would greet them by name to ensure that the user is the individual the robot thinks they are. If the robot is mistaken, the user can alert the robot that they are a different user and steps would be put into place to ensure this is corrected for the next time including but not limited to, using further identification techniques or rescanning the individuals face. If the system can't differentiate one user from the others, it would greet those walking through and say how it wasn't able to register any information. This has been illustrated in figure six (page 11).
This system would also be able to provide verbal and visual reminders to the user whether it is for medication and other health related activities, or for their other activities during the day or week. This would be incredibly useful for the elderly as this would provide a healthcare companion that could check if they are currently healthy and could help them stay healthy by not letting them forget to take their medication. This has been illustrated in figure six (page 11).
This system should be able to work alongside other system's software and/or databases to compile information. Furthermore, this system should be able to communicate and work alongside other mechanical and electrical systems to gather further information or to send information. An example of one of these electrical and mechanical systems that could transmit useful medical data to be compiled includes a bracelet that could monitor the user's blood pressure, blood sugar and heart rate. This has been further illustrated in figure four (page 10).
There would be an option for a load cell and/or a pressure sensor array to be installed in the floor and/or in the wall. This would allow the individual(s) using this device to record and keep track of their weight and strength over time. This has been illustrated in figure one (pages 7 and 8).
There would be a heart rate monitor attached to the wall that would be used once the user has verified their identity. There would also be a device to take an individual's blood pressure mounted to the wall that would be accessible through a locked door once the user has verified their identity. This has been illustrated in figure seven (page 12).
People will be able to access this information from the cloud server over their phones and tablets if their device has been approved with having a quality fingerprint sensor and facial recognition feature that would provide the required additional layers of security.
With proper implementation in hospitals, this machine could serve as a triage nurse as it would have the option for the individual to insert their health card, and verify their ID through their fingerprint, an iris scan, and through facial recognition, take the patients, temperature, blood pressure, blood sample if necessary, and heart rate. The subject could then enter in information through questions either through a sanitized keyboard or through voice-to-text interfacing. The patient would then be prompted on what to do next. This system will improve the efficiency of the hospital as it will provide an extra level of security, reduce the amount of triage nurses required and minimize human error.

This machine will also be able to perform non-invasive blood tests for certain applications.
An example of an application includes non-invasive blood sugar/glucose monitoring.
The information that is stored online has the potential to be released to insurance companies to help allow them to monitor the health of an individual and possibly provide better rates for those with a good health record.
This machine has the option to have attachments mounted onto the unit. An example of what could be attached is an automated pill dispenser which could provide the correct amount of pills for the user and ensure that they have it on time.

Claims

The Embodiments Of The Invention In Which An Exclusive Property Or Privilege Is Claimed Are Defined As Follows

1. The ability for the main system to consist of an arch or panel structure that could be setup in but not limited to a hallway or in a doorway.

2. The ability to have the option for a monitor to be mounted on the side of this system to provide an easy interface for the individual to check in on his body's status.

3. The ability for the system to take a blood sample from the user and store that information.

4. The ability for the blood sampler to be able to self-clean regularly and restrict its' use until it has been fully sterilized.

5. The ability for all of the information to be downloaded to the onsite computer and a cloud server where the individual, health professionals and anyone else with clearance could access it.

6. The ability for the information in claim 5 to be accessed through various levels of security including but not limited to password, facial recognition, RFID
implant recognition, iris scans and fingerprint recognition verification.

7. The ability for there to be speakers and a microphone setup in the system which would allow there to be verbal interaction between the system and the user.

8. The ability for the system to host a live appointment between the user and their doctor through the microphone, camera and monitor.

9. The ability for the system to identify people walking by through facial recognition and iris scans without contact, to allow the system to automatically record and store the information of the individual in the proper file.

10. The ability for the system to be able to provide verbal and visual reminders to the user(s) whether it is for medication and other health related activities, or for their other activities during the day or week.

11. The ability for this system's software to work alongside other software in order to compile information.

12. The ability for this system to work alongside other mechanical and electrical systems to gather further information or to send information.

13. The ability for a load cell and/or a pressure sensor array to be installed in the floor and/or in the wall.

14. The ability for system to have a heart rate monitor attached to the wall that would be used once the user has verified their identity.

15. The ability for the system to have a device to take an individual's blood pressure mounted to the wall that would be accessible through a locked door once the user has verified their identity.

16. The ability for the information to be accessed through phones and tablets from the cloud server where the information is stored once identity had been verified through the phone's fingerprint sensor and through the facial recognition feature.

17. The ability through proper implementation in hospitals, for the machine to serve as a triage nurse as it would have the option for the individual to insert their health card, and verify their ID through their fingerprint, an iris scan, and through facial recognition, take the patients, temperature, blood pressure, blood sample if necessary, and heart rate.

18. The ability for this to be used in public institutions including but not limited to public and private health buildings.

19. The ability for a stool to be attached to the panel to provide a seat for the user.

20. The ability for the patients' blood to also be tested through non-invasive techniques such as a non-invasive-glucose monitor.

21. The ability for other health-related companies such as insurance companies to be able to access the information stored on the database in order to provide those with a record of good health a discount on their insurance.

22. The ability for the main computer to be stored in the body of the unit with the option to be portable along with the monitor and any other connected device.

23. The ability for attachments to be added to the unit over time as new attachments become available for health and communication purposes.

24. The ability for family and/or doctors to be notified in the event that the settings of the unit have been modified which are backed up to a server in the event of wanting to revert back to either the original settings or to a backup that occurred previously.