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ImI'm building a smart shopping cart with arduinoArduino for my final year project. 

The cart is supposed to be able to follow its user while shopping. I dontdon't know of many feasible indoor positioning systems to use.

proposed solution 1 IProposed solution 1

I have recently seen some RF/ultrasonic positioning systems that make use of /one ultrasound transmitter and one RF receiver/ carried by the person, and /two ultrasound receivers and one RF transmitter/ carried by the robot.:

  • one ultrasound transmitter and one RF receiver, carried by the person,
  • and two ultrasound receivers and one RF transmitter carried by the robot.

The robots RF transmitter sends out a signal, which when received by the personsperson's RF receiver, triggers the personsperson's ultrasound transmitter to transmit a signal. This signal is received by the robotsrobot's two ultrasound receivers  (with a distance, d between them), and the distance and angle to the target person can be calculated.

SoundsThat sounds very feasible, but my question is, if the robot is in a crowded place, where the other people are also carrying ultrasound transmitters and RF receivers: 1. Will the RF signal meant for the owner of the robot be accidentally received by the RF receiver on another person, or is there some kind of unique ID shared between RF receiver/transmitter pairs that could prevent this problem, or maybe some kind of frequency hopping system, so there would be no mistaken identity. 2. How will the ultrasound receivers on the robot be sure that the received signal is from its matching ultrasound transmitter. Again, is there some kind of special ID systems employed by some ultrasonic transmitter/receivers.

  1. Will the RF signal meant for the owner of the robot be accidentally received by the RF receiver on another person, or is there some kind of unique ID shared between RF receiver/transmitter pairs that could prevent this problem, or maybe some kind of frequency hopping system, so there would be no mistaken identity.
  2. How will the ultrasound receivers on the robot be sure that the received signal is from its matching ultrasound transmitter. Again, is there some kind of special ID systems employed by some ultrasonic transmitter/receivers.

Proposed solution 2

solution 2 II have also read about this new device called Trackr, it makes use of bluetooth low energy to track objects based on their proximity to bluetooth enabled devices like smart phones. Considering

Considering a scenario where various bluetooth devices  (beacons) are placed at specific points in a room, and the target to be tracked is equipped with a bluetooth emitter/bluetooth chip/dongle. 

When the target passes each of those beacons, the signal strength intensity is received and distance from the target is calculated. I

I understand this concept, but have some questions: 1. When distance is calculated between beacon and target, what about the angle, how would the robot follow the target based on distance alone? 2. If this method is not accurate enough to be used in a crowed space, what other method can be used, i have checked out some indoor GPS devices and they are way to expensive(above $200). Please i need help, i cant sleep, just thinking about this.

  1. When distance is calculated between beacon and target, what about the angle, how would the robot follow the target based on distance alone?
  2. If this method is not accurate enough to be used in a crowded space, what other method can be used, I have checked out some indoor GPS devices and they are way to expensive (above $200).

Would a camera based-based tracking system be better and how easy would it be for a non expert like me to implement. Please, anyone...

Im building a smart shopping cart with arduino for my final year project. The cart is supposed to be able to follow its user while shopping. I dont know of many feasible indoor positioning systems to use.

proposed solution 1 I have recently seen some RF/ultrasonic positioning systems that make use of /one ultrasound transmitter and one RF receiver/ carried by the person, and /two ultrasound receivers and one RF transmitter/ carried by the robot. The robots RF transmitter sends out a signal, which when received by the persons RF receiver triggers the persons ultrasound transmitter to transmit a signal. This signal is received by the robots two ultrasound receivers(with a distance, d between them), and the distance and angle to the target person can be calculated.

Sounds very feasible, but my question is, if the robot is in a crowded place, where the other people are also carrying ultrasound transmitters and RF receivers: 1. Will the RF signal meant for the owner of the robot be accidentally received by the RF receiver on another person, or is there some kind of unique ID shared between RF receiver/transmitter pairs that could prevent this problem, or maybe some kind of frequency hopping system, so there would be no mistaken identity. 2. How will the ultrasound receivers on the robot be sure that the received signal is from its matching ultrasound transmitter. Again, is there some kind of special ID systems employed by some ultrasonic transmitter/receivers.

solution 2 I have also read about this new device called Trackr, it makes use of bluetooth low energy to track objects based on their proximity to bluetooth enabled devices like smart phones. Considering a scenario where various bluetooth devices(beacons) are placed at specific points in a room, and the target to be tracked is equipped with a bluetooth emitter/bluetooth chip/dongle. When the target passes each of those beacons, the signal strength intensity is received and distance from the target is calculated. I understand this concept, but have some questions: 1. When distance is calculated between beacon and target, what about the angle, how would the robot follow the target based on distance alone? 2. If this method is not accurate enough to be used in a crowed space, what other method can be used, i have checked out some indoor GPS devices and they are way to expensive(above $200). Please i need help, i cant sleep, just thinking about this. Would a camera based tracking system be better and how easy would it be for a non expert like me to implement. Please, anyone...

I'm building a smart shopping cart with Arduino for my final year project. 

The cart is supposed to be able to follow its user while shopping. I don't know of many feasible indoor positioning systems to use.

Proposed solution 1

I have recently seen some RF/ultrasonic positioning systems that make use of:

  • one ultrasound transmitter and one RF receiver, carried by the person,
  • and two ultrasound receivers and one RF transmitter carried by the robot.

The robots RF transmitter sends out a signal, which when received by the person's RF receiver, triggers the person's ultrasound transmitter to transmit a signal. This signal is received by the robot's two ultrasound receivers  (with a distance, d between them), and the distance and angle to the target person can be calculated.

That sounds very feasible, but my question is, if the robot is in a crowded place, where the other people are also carrying ultrasound transmitters and RF receivers:

  1. Will the RF signal meant for the owner of the robot be accidentally received by the RF receiver on another person, or is there some kind of unique ID shared between RF receiver/transmitter pairs that could prevent this problem, or maybe some kind of frequency hopping system, so there would be no mistaken identity.
  2. How will the ultrasound receivers on the robot be sure that the received signal is from its matching ultrasound transmitter. Again, is there some kind of special ID systems employed by some ultrasonic transmitter/receivers.

Proposed solution 2

I have also read about this new device called Trackr, it makes use of bluetooth low energy to track objects based on their proximity to bluetooth enabled devices like smart phones.

Considering a scenario where various bluetooth devices  (beacons) are placed at specific points in a room, and the target to be tracked is equipped with a bluetooth emitter/bluetooth chip/dongle. 

When the target passes each of those beacons, the signal strength intensity is received and distance from the target is calculated.

I understand this concept, but have some questions:

  1. When distance is calculated between beacon and target, what about the angle, how would the robot follow the target based on distance alone?
  2. If this method is not accurate enough to be used in a crowded space, what other method can be used, I have checked out some indoor GPS devices and they are way to expensive (above $200).

Would a camera-based tracking system be better and how easy would it be for a non expert like me to implement.

1
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Problem building a smart shopping cart

Im building a smart shopping cart with arduino for my final year project. The cart is supposed to be able to follow its user while shopping. I dont know of many feasible indoor positioning systems to use.

proposed solution 1 I have recently seen some RF/ultrasonic positioning systems that make use of /one ultrasound transmitter and one RF receiver/ carried by the person, and /two ultrasound receivers and one RF transmitter/ carried by the robot. The robots RF transmitter sends out a signal, which when received by the persons RF receiver triggers the persons ultrasound transmitter to transmit a signal. This signal is received by the robots two ultrasound receivers(with a distance, d between them), and the distance and angle to the target person can be calculated.

Sounds very feasible, but my question is, if the robot is in a crowded place, where the other people are also carrying ultrasound transmitters and RF receivers: 1. Will the RF signal meant for the owner of the robot be accidentally received by the RF receiver on another person, or is there some kind of unique ID shared between RF receiver/transmitter pairs that could prevent this problem, or maybe some kind of frequency hopping system, so there would be no mistaken identity. 2. How will the ultrasound receivers on the robot be sure that the received signal is from its matching ultrasound transmitter. Again, is there some kind of special ID systems employed by some ultrasonic transmitter/receivers.

solution 2 I have also read about this new device called Trackr, it makes use of bluetooth low energy to track objects based on their proximity to bluetooth enabled devices like smart phones. Considering a scenario where various bluetooth devices(beacons) are placed at specific points in a room, and the target to be tracked is equipped with a bluetooth emitter/bluetooth chip/dongle. When the target passes each of those beacons, the signal strength intensity is received and distance from the target is calculated. I understand this concept, but have some questions: 1. When distance is calculated between beacon and target, what about the angle, how would the robot follow the target based on distance alone? 2. If this method is not accurate enough to be used in a crowed space, what other method can be used, i have checked out some indoor GPS devices and they are way to expensive(above $200). Please i need help, i cant sleep, just thinking about this. Would a camera based tracking system be better and how easy would it be for a non expert like me to implement. Please, anyone...