LoPy: Difference between revisions
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Two LoPy micro-controllers are used. One sends a signal and other waits for a signal before replying back. The random sleep is used to avoid jamming at nodes, which can cause the packet lost. For all the tests, one node acts as stationary node while another moves with the human-walking speed. The test stops when both nodes do not receive signal. | Two LoPy micro-controllers are used. One sends a signal and other waits for a signal before replying back. The random sleep is used to avoid jamming at nodes, which can cause the packet lost. For all the tests, one node acts as stationary node while another moves with the human-walking speed. The test stops when both nodes do not receive signal. | ||
==[[Line-of-sight experiment]]== | ==[[Line-of-sight experiment]]== | ||
* | *Medium range: bandwidth=LoRa.BW_250KHZ,coding_rate=LoRa.CODING_4_5,sf=7 | ||
** To be determined | ** To be determined | ||
* | *Fast short range: bandwidth=LoRa.BW_500KHZ,coding_rate=LoRa.CODING_4_5,sf=7 | ||
** According to our experiment, the signal can reach upto 400 m. | ** According to our experiment, the signal can reach upto 400 m. | ||
* | *Slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=9 | ||
** It does not work | ** It does not work | ||
* | *Very slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=12 | ||
** It does not work | ** It does not work | ||
==[[With obstacles: Buildings and trees experiment]]== | ==[[With obstacles: Buildings and trees experiment]]== | ||
* | *Medium range: bandwidth=LoRa.BW_250KHZ,coding_rate=LoRa.CODING_4_5,sf=7 | ||
**According to our experiment, the signal can reach upto 200 m. | **According to our experiment, the signal can reach upto 200 m. | ||
* | *Fast short range: bandwidth=LoRa.BW_500KHZ,coding_rate=LoRa.CODING_4_5,sf=7 | ||
** According to our experiment, the signal can reach upto 150 m. | ** According to our experiment, the signal can reach upto 150 m. | ||
* | *Slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=9 | ||
**It does not work | **It does not work | ||
* | *Very slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=12 | ||
**It does not work | **It does not work |
Latest revision as of 10:27, 10 March 2017
Objective
Our aim is to test the lora signal for LoPy micro-controller with different bandwidths. We performed both for line-of-sight test and the test with obstacles (buildings and trees). The test is the outdoor test with good weather condition. The test with bad weather condition will be our future work.
Testing Scenarios
Two LoPy micro-controllers are used. One sends a signal and other waits for a signal before replying back. The random sleep is used to avoid jamming at nodes, which can cause the packet lost. For all the tests, one node acts as stationary node while another moves with the human-walking speed. The test stops when both nodes do not receive signal.
Line-of-sight experiment
- Medium range: bandwidth=LoRa.BW_250KHZ,coding_rate=LoRa.CODING_4_5,sf=7
- To be determined
- Fast short range: bandwidth=LoRa.BW_500KHZ,coding_rate=LoRa.CODING_4_5,sf=7
- According to our experiment, the signal can reach upto 400 m.
- Slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=9
- It does not work
- Very slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=12
- It does not work
With obstacles: Buildings and trees experiment
- Medium range: bandwidth=LoRa.BW_250KHZ,coding_rate=LoRa.CODING_4_5,sf=7
- According to our experiment, the signal can reach upto 200 m.
- Fast short range: bandwidth=LoRa.BW_500KHZ,coding_rate=LoRa.CODING_4_5,sf=7
- According to our experiment, the signal can reach upto 150 m.
- Slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=9
- It does not work
- Very slow long range: bandwidth=LoRa.BW_125KHZ,coding_rate=LoRa.CODING_4_8,sf=12
- It does not work