DEVICE AND METHOD FOR DETECTING THE MEDICAL STATUS OF A PERSON

Abstract

A device to detect medical status of a person, including a robot manipulator to receive and handle effectors, each effector enabling a selected activity; a first unit to determine a current state Z.sub.RM(t) of the robot manipulator and a current state of an effector; a second unit to determine a current position L.sub.KT,AKTk(t) of a person's body part related to the selected activity in a working region of the robot manipulator; a third unit to determine a wrench KW(t) acting on the robot manipulator; a fourth unit to specify target data and permissible deviations for the selected activity; and a control unit to control the robot manipulator upon specification of the selected activity as a function of: Z.sub.RM(t), L.sub.KT,AKTk(t), KW(t), target data, and permissible deviations, such that when a permissible deviation is exceeded, the robot manipulator and the effector are placed into a safe state based on the selected activity.

Claims

1. A device to detect a medical status of a person, wherein the device comprises: at least one robot manipulator RM configured at a distal end thereof to interchangeably receive and handle a number N of different provided effectors EFF.sub.n, where N≥1 and n=1, 2, . . . , N, wherein the effectors EFF.sub.n each enable an activity AKT.sub.k selected from a following list, where k=1, 2, . . . , K and K≥1: i. sampling microbiological material from the person using provided swabs, applicator sticks, swab spatulas, biopsy needles; ii. sampling capillary blood from the person using provided capillaries; iii. recording medical parameters of the person: blood pressure, pulse, temperature, electrical skin resistance, electrical conductivity of the skin, local electrical potential measurement on the skin surface, oxygen saturation, auscultation using an acoustic sensor; iv. capturing image data of the person in person's entirety or of selected areas of the person; a first unit configured to determine a current state Z.sub.RM(t) of the robot manipulator RM and a current state Z.sub.EFFn(t) of an effector EFF.sub.n currently arranged at the distal end thereof; a second unit configured to determine and/or mechanically specify, in a particularly customizable manner, a current position L.sub.KT,AKTk(t) of a person's body part KT associated with a selected activity AKT.sub.k in a working region of the robot manipulator RM; a third unit configured to determine a wrench KW(t) currently acting on the robot manipulator RM; a fourth unit configured to specify for each of the activities AKT.sub.k, information and data on a target position L.sub.KT,SOLL,AKTk of a respectively associated body part KT in the working region of the robot manipulator RM, on a target movement of the robot manipulator RM BEWEG.sub.SOLL,RM,AKTk, and on target forces of interaction INT.sub.SOLL,AKTk(BEWEG.sub.SOLL,RM,AKTk) and target states of the effector Z.sub.EFFn,SOLL(BEWEG.sub.SOLL,RM,AKTk) between the robot manipulator RM and the body part KT during execution of the target movement, as well as associated permissible deviations: ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,RM,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL,RM,AKTk); and a control unit configured to control the robot manipulator RM upon specification of an activity AKT.sub.k, as a function of: Z.sub.RM(t), L.sub.KT,AKTk(t), KW(t), L.sub.KT,SOLL,AKTk(t), BEWEG.sub.SOLL,AKTk, ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL, AKTn), wherein, as soon as a current movement of the robot manipulator RM determined from the current state Z.sub.RM(t) or a currently detected wrench KW(t) or a variable derived therefrom or a current state Z.sub.EFF(t) of the effector EFF.sub.n currently arranged on the robot manipulator RM exceeds a correspondingly predetermined and/or learned permissible deviation, the robot manipulator RM and the effector EFF.sub.n currently arranged thereon are controllably placed in a safe state SZ.sub.RM(AKT.sub.n), SZ.sub.EFFn(AKT.sub.n) as a function of the currently selected activity AKT.sub.n, and furthermore to control the robot manipulator RM and the effector EFF currently arranged thereon in such a way that images and/or medical parameters and/or samples ascertained while the activity AKT.sub.k is taking place are provided for further evaluation at a respective interface.

2. The device according to claim 1, wherein the device comprises: a first data interface, via which individual medical information INFO.sub.PERS about the person to be examined includes one or more items from a following list: pre-existing illnesses; allergies; familial illnesses; current medications; medical risk factors; previous diagnoses; current diagnostic query; and an analysis unit configured to specify one or more current activities AKT.sub.k to be carried out in succession, depending on the individual medical information INFO.sub.PERS provided: AKT.sub.k=AKT.sub.k(INFO.sub.PERS).

3. The device according to claim 2, wherein the first data interface comprises a card reader, wherein the individual medical information INFO.sub.PERS is stored on a chip card and the card reader is configured to read the chip card.

4. The device according to claim 1, wherein the device comprises a second data interface configured to transmit recorded medical parameters and/or image data to a computer in a data network.

5. The device according to claim 4, wherein the second data interface is configured to receive data from the computer or the control unit, wherein the data are output at an optical output unit and/or acoustic output unit of the device and/or which enable the robot manipulator RM to be controlled from the computer.

6. The device according to claim 1, wherein the robot manipulator RM is integrated into a sealable, climate-controlled room which includes a mechanism to kill microbiological germs in the room and on objects located therein, wherein the mechanism is automatically activated after detection of the medical status of the person has ended, once the person has left the room, no other person is in the room, and the room is closed.

7. The device according to claim 6, wherein the mechanism comprises a UV light source and/or chemicals capable of being spread into the room and/or an ultrasound source.

8. The device according to claim 1, wherein the robot manipulator RM is arranged in a room separated from the person by a partition, wherein the partition includes an opening, and wherein the control unit is configured such that the robot manipulator RM only guides a distal end of a respective swab or a respective applicator stick or a respective swab spatula or a respective biopsy needle through the opening into the person's body part KT to be examined, in order to get a sample of the microbiological material of the person.

9. The device according to claim 8, wherein the opening on a side of the partition facing away from the room includes a contact device for supported and/or guided contact of the body part to be examined.

10. (canceled)

11. The device according to claim 1, wherein the selected areas of the person include at least one of external auditory canal, pharynx, specified skin areas, joints, eyes, feet, hands, head, neck, abdomen, and back.

12. A method of detecting the medical status of a person, wherein the method comprises: using at least one robot manipulator RM configured at a distal end thereof to interchangeably receive and handle a number N of different provided effectors EFF.sub.n, where N≥1 and n=1, 2, . . . , N, wherein the effectors EFF.sub.n each enable an activity AKT.sub.k selected from a following list, where k=1, 2, . . . , K and K≥1: i. sampling microbiological material from the person using provided swabs, applicator sticks, swab spatulas, biopsy needles; ii. sampling capillary blood from the person using provided capillaries; iii. recording medical parameters of the person: blood pressure, pulse, temperature, electrical skin resistance, electrical conductivity of the skin, local electrical potential measurement on the skin surface, oxygen saturation by pulse oximetry, auscultation using an acoustic sensor; iv. capturing image data of the person in person's entirety or of selected areas of the person; determining a current state Z.sub.RM(t) of the robot manipulator RM and a current state Z.sub.EFFn(t) of an effector EFF.sub.n currently arranged at the distal end thereof; determining and/or mechanically specifying, in a particularly customizable manner, a current position L.sub.KT,AKTk(t) of a person's body part KT associated with a selected activity AKT.sub.k in a working region of the robot manipulator RM; determining a wrench KW(t) currently acting on the robot manipulator RM; specifying for each of the activities AKT.sub.k, a target position L.sub.KT,SOLL,AKTk of a respectively associated body part KT in the working region of the robot manipulator RM, on a target movement of the robot manipulator RM BEWEG.sub.SOLL,RM,AKTk, and target forces of interaction INT.sub.SOLL,AKTk(BEWEG.sub.SOLL,RM,AKTk) and target states of the effector Z.sub.EFFn,SOLL(BEWEG.sub.SOLL,RM,AKTk) between the robot manipulator RM and the body part KT during execution of the target movement, as well as associated permissible deviations: ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,RM,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL,RM,AKTk); and controlling the robot manipulator RM upon specification of an activity AKT.sub.k, as a function of: Z.sub.RM(t), L.sub.KT,AKTk(t), KW(t), L.sub.KT,SOLL,AKTk(t), BEWEG.sub.SOLL,AKTk, ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL,AKTn), wherein, as soon as a current movement of the robot manipulator RM determined from the current states Z.sub.RM(t) or a currently detected wrench KW(t) or a variable derived therefrom or a current state Z.sub.EFF(t) of the effector EFF.sub.n currently arranged on the robot manipulator RM exceeds a correspondingly predetermined and/or learned permissible deviation, the robot manipulator RM and the effector EFF.sub.n currently arranged thereon are controllably placed in a safe state SZ.sub.RM (AKT.sub.n), SZ.sub.EFFn(AKT.sub.n) as a function of the currently selected activity AKT.sub.n, and furthermore the robot manipulator RM and the effector EFF.sub.n currently arranged thereon are controlled in such a way that images and/or medical parameters and/or samples ascertained while the activity AKT.sub.k is taking place are provided for further evaluation at a respective interface.

13. The method according to claim 12, wherein the method comprises: including individual medical information INFO.sub.PERS about the person to be examined via a first data interface, wherein the medical information INFO.sub.PERS comprises one or more items from a following list: pre-existing illnesses; allergies; familial illnesses; current medications; medical risk factors; previous diagnoses; current diagnostic query; and specifying via an analysis unit one or more current activities AKT.sub.k to be carried out in succession, depending on the individual medical information INFO.sub.PERS provided: AKT.sub.k-AKT.sub.k(INFO.sub.PERS).

14. The method according to claim 13, wherein the first data interface comprises a card reader configured to read a chip card, wherein the method comprises storing the individual medical information INFO.sub.PERS on the chip card using the card reader.

15. The method according to claim 12, wherein the method comprises transmitting via a second data interface recorded medical parameters and/or image data to a computer in a data network.

16. The method according to claim 15, wherein the method comprises receiving via the second data interface data from the computer or a control unit, wherein the data are output at an optical output unit and/or acoustic output unit and/or which enable the robot manipulator RM to be controlled from the computer.

17. The method according to claim 12, wherein the robot manipulator RM is integrated into a sealable, climate-controlled room which includes a mechanism to kill microbiological germs in the room and on objects located therein, wherein the method comprises automatically activating the mechanism after detection of the medical status of the person has ended, once the person has left the room, no other person is in the room, and the room is closed.

18. The method according to claim 17, wherein the mechanism comprises a UV light source and/or chemicals capable of being spread into the room and/or an ultrasound source.

19. The method according to claim 12, wherein the robot manipulator RM is arranged in a room separated from the person by a partition, wherein the partition includes an opening, wherein the method comprises controlling the robot manipulator RM such that it only guides a distal end of a respective swab or a respective applicator stick or a respective swab spatula or a respective biopsy needle through the opening into the person's body part KT to be examined, in order to get a sample of the microbiological material of the person.

20. The method according to claim 19, wherein the opening on a side of the partition facing away from the room includes a contact device for supported and/or guided contact of the body part to be examined.

21. The method according to claim 12, wherein the selected areas of the person include at least one of external auditory canal, pharynx, specified skin areas, joints, eyes, feet, hands, head, neck, abdomen, and back.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0072] In the drawings:

[0073] FIG. 1 shows a highly schematized structure of a proposed device; and

[0074] FIG. 2 shows a highly schematized flowchart of a proposed method.

DETAILED DESCRIPTION

[0075] FIG. 1 shows a highly schematized structure of a proposed device for detecting the medical status of a person, wherein the device includes: at least one force-controlled and/or impedance-controlled multi-axis robot manipulator RM 101, which is designed and configured at the distal end thereof for interchangeably receiving and handling a number N of different provided effectors EFF.sub.n 102, where N≥1 and n=1, 2, . . . , N, wherein the effectors EFF.sub.n 102 each enable an activity AKT.sub.k selected from the following list, where k=1, 2, . . . , K and K≥1: [0076] sampling microbiological material from the person using provided swabs (AKT.sub.1), applicator sticks (AKT.sub.2), swab spatulas (AKT.sub.3), biopsy needles (AKT.sub.4); [0077] sampling capillary blood from the person using provided capillaries (AKT.sub.5); [0078] recording medical parameters of the person: blood pressure (AKT.sub.6), pulse (AKT.sub.7), temperature (AKT.sub.7), electrical skin resistance (AKT.sub.8), electrical conductivity of the skin (AKT.sub.9), local electrical potential measurement on the skin surface (AKT.sub.10), oxygen saturation (AKT.sub.11) by pulse oximetry, auscultation using an acoustic sensor (AKT.sub.12); and [0079] capturing image data of the entire person (AKT.sub.13) or of selected areas of the person, for example the external auditory canal (AKT.sub.14), the pharynx (AKT.sub.15), specified skin areas (AKT.sub.16), joints (AKT.sub.17), eyes (AKT.sub.18), feet (AKT.sub.19), hands (AKT.sub.17), head (AKT.sub.18), neck (AKT.sub.19), abdomen (AKT.sub.20), and back (AKT.sub.21);

[0080] a first unit 103 for determining a current state Z.sub.RM(t) of the robot manipulator RM 101 and a current state Z.sub.EFFn(t) of an effector EFF.sub.n 102 currently arranged at the distal end thereof; a second unit 104 for determining and/or mechanically specifying, in particular, in a customizable manner, the current position L.sub.KT,AKTk(t) of a person's body part KT associated with a selected activity AKT.sub.k in the working region of the robot manipulator RM 101; a third unit 105 for determining a wrench KW(t) currently acting on the robot manipulator RM 101; a fourth unit 106 which specifies, for each of the activities AKT.sub.k, a target position L.sub.KT,SOLL,AKTk of the respectively assigned body part KT in the working region of the robot manipulator RM, a target movement of the robot manipulator RM BEWEG.sub.SOLL,RM,AKTk, as well as target forces of interaction INT.sub.SOLL,AKTn(BEWEG.sub.SOLL,RM,AKTk) and target states of the effector Z.sub.EFFn,SOLL(BEWEG.sub.SOLL,RM,AKTk) between the robot manipulator RM 101 and the body part KT during execution of the target movement, as well as corresponding permissible deviations: ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,RM,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL,RM,AKTk); and a control unit 107 which is designed and configured to control the robot manipulator RM 101 upon specification of an activity AKT.sub.k, as a function of: Z.sub.RM(t), L.sub.KT,AKTk(t), KW(t), L.sub.KT,SOLL,AKT(t), BEWEG.sub.SOLL,AKTk, ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL,AKTn), wherein, as soon as a current movement of the robot manipulator RM 101 determined from the current state Z.sub.RM(t), or a currently detected wrench KW(t), or a variable derived therefrom, or a current state Z.sub.EFF(t) of the effector EFF.sub.n 102 currently arranged on the robot manipulator RM 101 exceeds a correspondingly specified and/or learned permissible deviation, the robot manipulator RM 101 and the effector EFF.sub.n 102 currently arranged thereon are controllably placed into a safe state SZ.sub.RM(AKT.sub.n), SZ.sub.EFFn(AKT.sub.n) based on the currently selected activity AKT.sub.n, to control the robot manipulator RM 101 and the effector EFF.sub.n 102 currently arranged thereon respectively such that images and/or medical parameters and/or samples ascertained while the activity AKT.sub.k is taking place are provided for further analysis at a respective interface.

[0081] FIG. 2 shows a highly schematized flowchart of a proposed method for detecting the medical status of a person, using a device including at least one force-controlled and/or impedance-controlled multi-axis robot manipulator RM 101, which is designed and configured at the distal end thereof for interchangeably receiving and handling a number N of different provided effectors EFF.sub.n 102, where N≥1 and n=1, 2, . . . , N, wherein the effectors EFF.sub.n 102 each enable an activity AKT.sub.k selected from the following list, where k=1, 2, . . . , K and K≥1: [0082] sampling microbiological material from the person using provided swabs (AKT.sub.1), applicator sticks (AKT.sub.2), swab spatulas (AKT.sub.3), biopsy needles (AKT.sub.4); [0083] sampling capillary blood from the person using provided capillaries (AKT.sub.5); [0084] recording medical parameters of the person: blood pressure (AKT.sub.6), pulse (AKT.sub.7), temperature (AKT.sub.7), electrical skin resistance (AKT.sub.8), electrical conductivity of the skin (AKT.sub.9), local electrical potential measurement on the skin surface (AKT.sub.10), oxygen saturation (AKT.sub.11) by pulse oximetry, auscultation using an acoustic sensor (AKT.sub.12); [0085] capturing image data of the entire person (AKT.sub.13) or of selected areas of the person, for example the external auditory canal (AKT.sub.14), the pharynx (AKT.sub.15), specified skin areas (AKT.sub.16), joints (AKT.sub.17), eyes (AKT.sub.18), feet (AKT.sub.19), hands (AKT.sub.17), head (AKT.sub.18), neck (AKT.sub.19), abdomen (AKT.sub.20), and back (AKT.sub.21), wherein the method includes:

[0086] determining 201 a current state Z.sub.RM(t) of the robot manipulator RM 101 and a current state Z.sub.EFFn(t) of an effector EFF.sub.n 102 currently arranged at the distal end thereof; determining 202 and/or mechanically specifying, in particular, in a customizable manner, the current position L.sub.KT,AKTk(t) of a person's body part KT associated with a selected activity AKT.sub.k in the working region of the robot manipulator RM 101; determining 203 a wrench KW(t) currently acting on the robot manipulator RM 101; specifying 204, for each of the activities AKT.sub.k, a target position L.sub.KT,SOLL,AKTk of the respectively assigned body part KT in the working region of the robot manipulator RM, a target movement of the robot manipulator RM BEWEG.sub.SOLL,RM,AKTk, as well as target forces of interaction INT.sub.SOLL,AKTk(BEWEG.sub.SOLL,RM,AKTk) and target states of the effector Z.sub.EFFn,SOLL(BEWEG.sub.SOLL,RM,AKTk) between the robot manipulator RM 101 and the body part KT during execution of the target movement, as well as corresponding permissible deviations: ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,RM,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL,RM,AKTk); and controlling 205 the robot manipulator RM 101 upon specification of an activity AKT.sub.k, as a function of: Z.sub.RM(t), L.sub.KT,AKTk(t), KW(t), L.sub.KT,SOLL,AKTk(t), BEWEG.sub.SOLL,AKTk, ΔL.sub.KT,SOLL,AKTk,erlaubt, ΔBEWEG.sub.SOLL,AKTk,erlaubt, ΔINT.sub.SOLL,AKTk,erlaubt(BEWEG.sub.SOLL,AKTk), and ΔZ.sub.EFFn,SOLL,erlaubt(BEWEG.sub.SOLL,AKTn), wherein, as soon as a current movement of the robot manipulator RM 101 determined from the current state Z.sub.RM(t), or a currently detected wrench KW(t), or a variable derived therefrom, or a current state Z.sub.EFF(t) of the effector EFF.sub.n 102 currently arranged on the robot manipulator RM 101 exceeds a correspondingly specified and/or learned permissible deviation, the robot manipulator RM 101 and the effector EFF.sub.n 102 currently arranged thereon are controllably placed into a safe state SZ.sub.RM(AKT.sub.n), SZ.sub.EFFn(AKT.sub.n) based on the currently selected activity AKT.sub.n, and furthermore, the robot manipulator RM 101 and the effector EFF.sub.n 102 currently arranged thereon respectively are controlled such that images and/or medical parameters and/or samples ascertained while the activity AKT.sub.k is taking place are provided for further analysis at a respective interface.

[0087] Although the invention has been further illustrated and described in detail by way of preferred example embodiments, the invention is not limited by the disclosed examples, and other variations can be derived therefrom by a person skilled in the art without departing from the scope of protection of the invention. It is therefore clear that a multitude of possible variations exists. It is also clear that example embodiments are really only examples, which are not to be construed in any way as limiting the scope, applicability, or configuration of the invention. Rather, the foregoing description and description of the figures enable a person skilled in the art to implement the example embodiments, and such person may make various changes knowing the disclosed inventive concept, for example with respect to the function or arrangement of individual elements cited in an example embodiment, without departing from the scope as defined by the claims and their legal equivalents, such as a more extensive explanation in the description.

LIST OF REFERENCE NUMERALS

[0088] 101 Robot manipulator RM [0089] 102 Effectors EFF.sub.n [0090] 103 First unit [0091] 104 Second unit [0092] 105 Third unit [0093] 106 Fourth unit [0094] 107 Control unit [0095] 108 First data interface [0096] 109 Analysis unit [0097] 110 Second data interface [0098] 201-204 Method steps