Method and system for monitoring the dispensing of drugs or nutrients to animals

US 4,463,706 A
Filed: 05/19/1982
Issued: 08/07/1984
Est. Priority Date: 05/19/1982
Status: Expired due to Fees

First Claim

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1. A monitoring system comprising one or more central control stations and a plurality of portable stations;

said central control station comprising in combination;

central station transceiving means for transmitting an interrogating signal for reception by a portable station immediately adjacent to said central control station, and for receiving and responding to energy absorbed by said portable station from said interrogating signal in accordance with a first preselected set code;

means responsive to said central station transceiving means, upon receipt of said first preselected coded signal, to energize relay means;

(a) for enabling a pre-set electromechanical interaction to take place between said portable station and said central control station, and(b) for modulating said interrogating signal with a recoding signal, and directing said interrogating signal modulated with said recoding signal to said portable station;

said portable station comprising in combination;

portable transponding means tunable to receive the interrogating signal of said central control station, and to absorb energy from said interrogating signal thereby to impress on said central station transceiving means a response; and

to receive and decode said interrogating signal modulated with said recoding signal;

means comprising a memory circuit in energy transfer relation with said portable transponding means for providing an output for varying the tuning of said portable transponding means to selectively absorb energy from said interrogating signal to impress on the response of said central station transceiving means a signal coded in accordance with at least one of a plurality of preselected codes, including said first, preselected set code; and

means connected to said portable transponding means and said memory circuit and responsive to a recoding signal from said central station for changing the setting of said memory circuit from said first preselected set code to another preselected set code.

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Abstract

The disclosed system comprises one or more stationary dispensers associated with drinking fountains for farm animals, for dispensing predetermined doses of drugs or nutrients, operating in cooperation with a plurality of portable units constructed for individual animals. The portable units are designed to interact electronically with a stationary dispenser to control the amount and timing of the doses. The stationary dispenser includes in circuit relation, an interrogator-transmitter, a reply receiver, and a liquid dispenser responsive to the reply receiver. Each portable system comprises a coded passive transponder, a timer, and a memory element. When an animal comes within range of the stationary dispenser, its portable transponder is interrogated. A coded reply is sent by the animal'"'"'s transponder indicating whether animal has received a dose within a preceeding preselected time interval. If a positive reply is received by the stationary dispenser circuit, no further action is taken. The animal may drink but no dose of medication or nutrient will be dispensed. If a negative reply is received, then the dispenser valve is enabled, releasing the desired pre-measured dose if the animal drinks. Operation of the dispenser valve also causes a coded signal to be transmitted from the interrogator-transmitter to the animal'"'"'s portable unit setting a memory element, indicating that the animal has received the required dose, and initiating the running of the preselected time period, after elapse of which, the memory element is reset for enabling the next dosage.

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23 Claims

1. A monitoring system comprising one or more central control stations and a plurality of portable stations;
- said central control station comprising in combination;
  
  central station transceiving means for transmitting an interrogating signal for reception by a portable station immediately adjacent to said central control station, and for receiving and responding to energy absorbed by said portable station from said interrogating signal in accordance with a first preselected set code;
  
  means responsive to said central station transceiving means, upon receipt of said first preselected coded signal, to energize relay means;
  
  (a) for enabling a pre-set electromechanical interaction to take place between said portable station and said central control station, and(b) for modulating said interrogating signal with a recoding signal, and directing said interrogating signal modulated with said recoding signal to said portable station;
  
  said portable station comprising in combination;
  
  portable transponding means tunable to receive the interrogating signal of said central control station, and to absorb energy from said interrogating signal thereby to impress on said central station transceiving means a response; and
  
  to receive and decode said interrogating signal modulated with said recoding signal;
  
  means comprising a memory circuit in energy transfer relation with said portable transponding means for providing an output for varying the tuning of said portable transponding means to selectively absorb energy from said interrogating signal to impress on the response of said central station transceiving means a signal coded in accordance with at least one of a plurality of preselected codes, including said first, preselected set code; and
  
  means connected to said portable transponding means and said memory circuit and responsive to a recoding signal from said central station for changing the setting of said memory circuit from said first preselected set code to another preselected set code.
- View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12)
- - 2. A monitoring system in accordance with claim 1 wherein said means responsive to said recoding means in said portable station includes a timing circuit in circuit relation with said portable transponding means and said memory circuit, said timing circuit responsive to receipt of said recoding signal from said central control station to reset said memory circuit from said first preselected set code to a second preselected set code for a preselected time period, and to return said memory circuit to said first preselected set code at the end of said time period;
    - wherein said memory circuit is caused to vary said tunable means to impress said second preselected code on said interrogating signal received during said time period, and to reimpress said first preselected set code on said interrogating signal after said time period has terminated;
      
      said means in said central station, responsive to said central transceiving means, being responsive to said first preselected set code, but non-responsive to said second preselected set code.
  - 3. An electronic monitoring system in accordance with claim 2 wherein said central transceiving means for transmitting an interrogating signal comprises a carrier-wave oscillator constructed to oscillate at a selected carrier-wave frequency;
    - and whereinsaid portable transponding means comprises a circuit precisely tunable to said carrier-wave frequency and comprising inductive means for forming a mutual inductive coupling with said carrier-wave oscillator when said portable station is disposed immediately adjacent to said central station.
  - 4. The combination in accordance with claim 3 wherein said means for modulating said interrogating signal with said recoding signal comprises a second oscillator characterized by an oscillation frequency substantially lower than said carrier-wave frequency, and a modulating circuit connected between said second oscillator and said carrier-wave oscillator for modulating said carrier-wave with said modulating frequency;
    - and wherein said means connected to said portable transponding means for resetting said memory circuit in accordance with said recoding signal comprises a decoding circuit responsive to the modulating frequency of said carrier-wave.
  - 5. An electronic monitoring system in accordance with claim 1 for controlling the dispensing of medication or nutrients (Liquid B) to the animals of a herd;
    - wherein said central control station includes an animal-actuated valve for dispensing water (Liquid A) into an animal drinking fountain disposed in cooperative relation with said relay means, and dispensing means for measured doses of said Liquid B,wherein each of the portable stations of said plurality is fastened to an individual animal of said herd;
      
      wherein said preset electromechanical interaction is triggered by the simultaneous actuation by an animal of a water-dispensing valve of said water dispensing fountain, and the receipt by said central transceiving means of a signal impressed on said interrogating signal by the portable station on said animal, coded in accordance with said first preselected set code; and
      
      wherein said electromechanical interaction enabled by said relay means comprises the dispensing by said dispensing means of a premeasured dose of Liquid B into said drinking fountain for ingestion by said animal.
  - 6. An electronic monitoring system in accordance with claim 5 wherein said means responsive to said recoding means in said portable station includes a timing circuit responsive to receipt of said recoding signal from said central control station to reset said memory circuit from said first preselected set code to a second preselected set code for a preselected time period, and to return said memory circuit to said first preselected set code at the end of said time period;
    - wherein said memory circuit is caused to vary said tunable means to impress said second preselected set code on said interrogating signal received during said time period, and to reimpose said first preselected set code on said interrogating signal after said time period has terminated, said means responsive to said central transceiving means, being responsive to said first preselected set code, but non-responsive to said second preselected code, to energize said relay means to actuate said means for dispensing doses of Liquid B into said drinking fountain;
      
      whereby an animal actuating said water dispensing fountain will simultaneously receive a dose of Liquid B before or after said preselected time period but not during said preselected time period.
  - 7. The combination in accordance with claim 6 wherein each of said portable stations fastened to an individual animal of said herd, comprising said transponding means including said tunable circuit, said memory circuit, and said source of power, are combined in an integrated circuit combination, not weighing more than a few ounces, the combination being attached to a collar around the animal'"'"'s neck;
    - the central control station transceiving means including a carrier-wave oscillator;
      
      said tunable circuit in each of said portable circuits including a coil which is disposed to form an inductive coupling with said carrier-wave oscillator circuit when said animal approaches said drinking fountain.
  - 8. The combination in accordance with claim 5 wherein said dispensing means for dispensing discreet doses of Liquid B comprises a 4-way solenoid valve operative in combination with a metering pump connected to a reservoir of Liquid B, which operates upon the simultaneous actuation by said animal of said water dispensing valve and receipt in said central transceiving means of a signal coded in accordance with said first preselected set code, to energize said relay means to dispense said premeasured dose of Liquid B into said drinking fountain.
  - 9. The combination in accordance with claim 8 wherein said 4-way valve is responsive, in a first position:
    - to provide, in simultaneous relation, a first passage directly from a water source through said water dispensing valve into said fountain, and to provide a second passage connected in axial relation to said metering pump for exhausting water from said metering pump;
      
      and in a second position;
      
      to provide, in simultaneous relation, a passage directly from said water source through said water-dispensing valve into said metering pump, and a passage for exhausting air from the water outlet of said metering pump.
  - 10. The combination with claim 9 wherein water is provided from said water source at a water pressure of at least about 3 pounds per square inch.
  - 11. The combination in accordance with claim 9 wherein said metering pump is constructed and arranged to comprise in combination:
    - a hollow housing enclosing a larger diameter cylindrical sleeve at one end in axially-aligned relation with a smaller diameter cylindrical sleeve at the other end, providing a partial abutting wall between them;
      
      one end of said hollow housing connected to said 4-way valve through a central opening leading into said larger diameter sleeve for receiving water under pressure from said source in a second position of said 4-way valve and to expel air and/or water from said housing during a first position of said 4-way valve, the other end of said hollow housing being vented to the atmosphere through a central opening leading from said smaller sleeve;
      
      an intake conduit for Liquid B interposed through the wall of said housing into said smaller sleeve near the abutting wall;
      
      an outlet conduit for Liquid B interposed through the wall of said housing into said smaller sleeve at a position substantially spaced-apart to the left in an axial direction from said intake conduit;
      
      a first and a second water outlet branch interposed at positions spaced-apart in an axial direction along said larger sleeve, said first position substantially centered in said larger sleeve and said second position adjacent said abutting wall, said branches leading into said water fountain through a common outlet;
      
      a bypass conduit connected between said larger and smaller sleeves, said bypass conduit having one leg substantially diametrically aligned with said first water outlet branch in said larger sleeve, and its other leg substantially diametrically aligned with the outlet conduit for Liquid B in said smaller sleeve;
      
      a pair of pistons A and B each of T-shaped section combined in oppositely-directed telescoping relation in said housing, piston A having a larger head which fits in slidable engagement into said larger sleeve, and piston B having a smaller head which fits in slidable engagement into said smaller sleeve, piston A having at its outer end an axially-centered well, and an inwardly-directed hollow stem which fits slidably into said smaller sleeve and axially accommodates in slidable relation the inwardly-directed stem of piston B;
      
      the stem of piston A being of such a length, that when its head is closed in flush relation against said partial abutting wall, the end of its hollow stem extends up to, but does not close either the output conduit for Liquid B, or one leg of said bypass conduit into said smaller sleeve;
      
      the stem of piston B being of such length, when in telescopically constricted position with piston A, that it extends through the length of piston A, including its well, and terminates adjacent its outer face in an O-ring fitting which exceeds the diameter of said smaller sleeve and operates to stop the motion of piston B when moved in a left-hand direction;
      
      a first spring-bias interposed between the outer face of the head of piston B and the left-hand end of said smaller sleeve;
      
      and a second spring-bias interposed between the inner annular face of the head of piston B and the end of the stem of piston A, forming between then an annular dispensing cavity of controllable dimension in an axial direction, wherein;
      
      when said 4-way valve is in its first position bypassing water around said metering pump directly into the water fountain;
      
      piston A is in its initial rest position with its head against the end wall of said larger sleeve, and piston B is slidably retracted in a left-hand direction from the end of piston A against the tension of said second spring-bias, maximizing the size of said dispensing cavity, thereby causing a measured dose to be drawn into said dispensing cavity through the intake conduit of Liquid B;
      
      when said 4-way valve is in its second position admitting water under pressure directly into the housing of said metering pump;
      
      piston A is forced to the left, closing the intake conduit of Liquid B and simultaneously,(a) forcing water from said larger sleeve into the water fountain through said second water outlet, and (b) ultimately, forcing piston B to the left to open the outlet conduit for Liquid B, thereby expelling a measured dose from said annular dispensing cavity, after which piston B is forced further to the left to open the bypass conduit between the larger and smaller sleeves admitting water under pressure to flush out remaining portions of Liquid B from said dispensing cavity, piston A subsequently opening said first water outlet branch to exhaust additional water from the larger sleeve into the drinking fountain; and
      
      upon said 4-way solenoid valve again assuming its first position;
      
      pistons A and B are moved substantially in unison to the right, impelled by the compressive force of said first spring-bias, thereby closing the output conduit for Liquid B, and the legs of said bypass conduit, opening said second water outlet from said larger sleeve into said fountain for expelling any air or water from said meter housing, and again opening the intake conduit for receiving Liquid B into said dispensing cavity.
  - 12. The combination in accordance with claim 11 wherein the axial dimension of said annular dispensing cavity, and therefor the volume of said premeasured dose of Liquid B, is under control of the size and/or position of the O-ring interposed adjacent the end of the stem of piston B.

13. A metering pump constructed and arranged to dispense premeasured doses of a first Liquid B from a first source into a receptacle simultaneously with a quantity of Liquid A from another source, which comprises in combination:
- a hollow housing enclosing a larger sleeve at one end and a smaller sleeve at the other end, separated internally by a partial abutting wall;
  
  said hollow housing being connected through an axially-disposed intake conduit at its right-hand end to a valve for supplying Liquid A under pressure into said larger sleeve, and said hollow housing being connected through an axially-disposed exhaust opening to the atmosphere at its left-hand end;
  
  an intake conduit for Liquid B interposed through the wall of said housing into said smaller sleeve near said abutting wall;
  
  an outlet conduit for Liquid B interposed through the wall of said housing into said smaller sleeve at a position substantially spaced-apart to the left in an axial direction from said intake conduit;
  
  a first and a second Liquid A outlet branch interposed at positions spaced-apart in an axial direction along said larger sleeve, said first position substantially centered in said larger sleeve, and said second position adjacent said abutting wall, said branches leading into a common outlet for Liquid A into said receptacle;
  
  a bypass conduit connected between said larger and smaller sleeves, said bypass conduit having one leg substantially diametrically aligned with said first Liquid A outlet branch in said larger sleeve, and its other leg substantially diametrically aligned with the outlet conduit for Liquid B in said smaller sleeve;
  
  a pair of pistons A and B, each of T-shaped section, combined in oppositely-directed telescoping relation in said housing, piston A having a larger head which fits in slidable engagement into said larger sleeve, and piston B having a smaller head which fits in slidable engagement into said smaller sleeve, piston A having at its outer end an axially-centered well, and an inwardly-directed hollow stem coaxial therewith, which fits in slidable relation into said smaller sleeve, and axially-accommodates in slidably relation the inwardly-directed stem of piston B;
  
  the stem of piston A being of such a length that when its head is closed in flush relation against said partial abutting wall, the end of its hollow stem extends up to, but does not close either the output conduit for Liquid B, or one leg of said bypass conduit into said smaller sleeve;
  
  the stem of piston B being of such a length when in telescopically constricted position with piston A that it extends through the length of piston A, including its well and terminates adjacent its outer face in an O-ring fitting which exceeds the diameter of said smaller sleeve and operates to stop the motion of piston B in a left-hand direction;
  
  a first spring-bias interposed between the outer face of the head of piston B and the left-hand end of said smaller sleeve;
  
  and a second spring-bias interposed between the inner annular face of the head of piston B and the end of the stem of piston A forming between them an annular dispensing cavity of controllable dimension in an axial direction, wherein;
  
  when said valve for Liquid A is closed;
  
  piston A is in its initial rest position against the end wall of the larger sleeve, and the head of piston B is slidably retracted from the end of piston A in a left-hand direction, against the tension of said second spring-bias, maximizing the size of said dispensing cavity, thereby causing a measured dose to be drawn into said dispensing cavity through the intake conduit of Liquid B;
  
  when said valve for Liquid A is open, supplying Liquid A under pressure;
  
  piston A is forced to the left, closing the intake conduit of Liquid B and simultaneously forcing Liquid A from said larger sleeve into said receptacle through said second outlet for Liquid A, and ultimately, forcing piston B to the left to open the outlet conduit for Liquid B for expelling a measured dose from said dispensing cavity, after which piston B is forced further to the left to open the bypass conduits between the larger and smaller sleeves admitting Liquid A under pressure to flush out remaining portions of Liquid B from said dispensing cavity, and piston A subsequently opens said first outlet branch for Liquid A to exhaust additional amounts of said Liquid A from the larger sleeve into said fountain; and
  
  when the valve for Liquid A is again closed;
  
  pistons A and B are moved substantially in unison to the right, impelled by the compressive force of said first spring-bias, thereby closing the output conduit for Liquid B, and the legs of said bypass conduit, opening said second outlet branch for exhausting Liquid A from said larger sleeve into said receptacle, for expelling any air or Liquid A from said meter housing, and again opening the intake conduit for receiving Liquid B into said dispensing cavity.
- View Dependent Claims (14)
- - 14. The combination in accordance with claim 13 wherein the axial dimension of said annular dispensing cavity, and therefor the volume of said premeasured dose of Liquid B, is under control of the size and/or position of the O-ring interposed adjacent the end of the stem of piston B.

15. The method of utilizing one or more central control stations to monitor a plurality of portable stations which comprises the steps of:
- at said central station;
  
  generating and transmitting an interrogating signal for reception by a portable station immediately adjacent to said central station, and receiving and responding to energy absorbed by said portable station from said interrogating signal in accordance with a first preselected set code;
  
  upon receipt of a response from said portable station impressed with said first preselected set code, to energize relay means;
  
  (a) for enabling a preset electromechanical interaction to take place between said portable station and said central control station, and(b) for modulating said interrogating signal with a recoding signal, and directing said interrogating signal modulated with said recoding signal to said portable station; and
  
  at said portable station;
  
  tuning means in said portable station to receive the interrogating signal from said central station, and to absorb energy from said interrogating signal for impressing a response on said central station transceiving means;
  
  decoding said interrogating signal when modulated with a recoding signal;
  
  utilizing the output of a computerized memory circuit under control of said decoding means for varying the tuning of said portable transponding means to selectively absorb energy from said interrogating signal to impress on the response of said central station transceiving means a signal coded in accordance with one or more preselected set codes including said first preselected set code;
  
  and receiving and demodulating the recoding signal transmitted by said interrogating signal for changing the setting of said memory circuit from one said preselected set code to another preselected set code.
- View Dependent Claims (16, 17, 18, 19, 20)
- - 16. The method in accordance with claim 15 which comprises utilizing the recoding signal received from said transmitting means to initiate operation of a timing circuit in control of the setting of said computerized memory circuit, to reset said memory circuit from said first preselected code setting to a second preselected code setting for a preselected time period, and to return said memory circuit to said first preselected code setting at the end of said time period.
  - 17. The method in accordance with claim 16 of generating an interrogating signal oscillating at a selected unmodulated carrier-wave frequency from an oscillator in said central control station;
    - and forming a mutual inductive relationship between means in said portable station precisely tunable to said carrier-wave frequency and said central station oscillator when said portable station is disposed immediately adjacent to said central control station.
  - 18. The method in accordance with claim 17 wherein said recoding signal comprises a modulation impressed on said carrier-wave frequency at a frequency substantially lower than said carrier-wave frequency;
    - and wherein said recoding signal comprising said modulating frequency is demodulated in said portable circuit and the output utilized for controlling the setting of said memory circuit.
  - 19. The method in accordance with claim 15 for controlling the dispensing of medication or nutrients (Liquid B) to animals of a herd, wherein said herd is controlled from a central station having an animal-actuated valve for dispensing drinking water into a fountain;
    - which comprises fastening a portable station individually to each of the animals of said herd;
      
      which includes a circuit tunable to said interrogating signal and which forms a mutual inductive relationship with the generator of said interrogating signal at said central station when said animal is adjacent thereto;
      
      and tuning said portable animal circuits to selectively absorb energy from said interrogating signal in accordance with said preselected set code;
      
      whereupon said electromechanical interaction enabled by said relay means comprises the dispensing in response to an animal actuating said water-dispensing valve, a premeasured dose of Liquid B into said fountain for ingestion by said animal.
  - 20. The method in accordance with claim 19 which includes interposing a timing circuit and a computerized memory circuit into said portable station individually attached to each of the animals of said herd, which timing circuit is responsive to receipt of said recoding signal from said central station to reset said memory circuit from said first preselected set code to said second preselected set code for a preselected time period and to return the same to said first preselected set code at the termination of said time period;
    - wherein said memory circuit is caused to vary said tuning means in said portable circuit to impress said second preselected set code on said interrogating signal received during said time period and to reimpose said first preselected set code on said interrogating signal after said time period has terminated;
      
      whereby said relay means in said central station is responsive to said first preselected set code, but is non-responsive to said second preselected set code;
      
      whereby an animal actuating said water-dispensing fountain will simultaneously receive a dose of Liquid B before or after said preselected time period, but not during said preselected time period.

21. Apparatus for automatically administering a dose of drug or medicine to an animal or human patient in admixture with said patient'"'"'s drinking water and for preventing said patient from receiving a subsequent dose of said drug or medicine until the expiration of a predetermined period of time following the administration of said first dose, comprising:
- (a) a source of water from which the said patient may drink water at will in accordance with the patient'"'"'s needs;
  
  (b) a dispenser for introducing into the water a drug or medicine which will be drunk along with the water by the patient when the patient drinks said water;
  
  (c) a first control circuit for operating said dispenser to dispense the drug or medicine therefrom into said drinking water;
  
  (d) a second control circuit carried by said patient which when brought in proximity with said first control circuit will absorb energy from the first control circuit and thereby cause the first control circuit to operate the said dispenser and introduce into said water a predetermined dose of said drug or medicine;
  
  (e) and means in said second control circuit for preventing said first control circuit from operating the dispenser again when the second control circuit is again brought into proximity with the first control circuit until the expiration of a predetermined period of time.
- View Dependent Claims (22)
- - 22. Apparatus according to claim 21 in which the first control circuit comprises a marginal oscillator from which, when the first and second circuits are brought into proximity, the second circuit absorbs sufficient energy to substantially reduce the amplitude of oscillations in said oscillator, or even to stop the oscillator from oscillating, and this change in the condition of the oscillator is utilized to operate the dispenser.

23. In an apparatus for introducing into an animal'"'"'s drinking water a predetermined dose of a drug or medicine during each of a succession of consecutive time periods, so that the animal will drink said drug or medicine with its drinking water in only a pre-selected dosage per unit of time regardless of how often the animal drinks water, a stationary control circuit including a first oscillator for dispensing said drug or medicine into said drinking water in response to a change in the oscillations produced by said first oscillator, a portable circuit carried by each of the animals to be treated with said drug or medicine which circuit will be brought into proximity with said stationary control circuit when the animal positions itself so as to drink said drinking water, and a second oscillator in said stationary circuit for transmitting a signal from the stationary circuit to a portable circuit when the portable circuit is brought into proximity with the stationary circuit, and means in the portable circuit responsive to said signal for rendering said portable circuit ineffective to absorb substantial amounts of energy from said first oscillator for a selected period of time following the transmission of said signal from the stationary circuit to the portable circuit.

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Current Assignee
JBM Associates Incorporated
Original Assignee
JBM Associates
Inventors
Meister, Jack B., Van Winkle, David W.
Primary Examiner(s)
Chamblee, Hugh R.

Application Number

US06/379,752
Time in Patent Office

811 Days
Field of Search

119/51 R, 119/72, 194/9 R, 194/4 C, 221/15
US Class Current

119/51.02
CPC Class Codes

A01K 11/008   incorporating GPS

A01K 39/04   Combined feeding and drinki...

A01K 7/02   Automatic devices ; Medicat...

Method and system for monitoring the dispensing of drugs or nutrients to animals

First Claim

2 Assignments

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Accused Products

Abstract

159 Citations

23 Claims

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Method and system for monitoring the dispensing of drugs or nutrients to animals

First Claim

2 Assignments

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Accused Products

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Abstract

159 Citations

23 Claims

Specification

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Solutions

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