Bluetooth 5.1
Comparison version between v2 by Vicky Zhou and v1 by Giovanni Pau

Bluetooth 5.1 allows producers to create location applications based on the Angle of Departure (AoD) and the Angle of Arrival (AoA). Accordingly, it is conceivable to design proper Indoor Positioning Systems (IPS), for instance, for the traceability of resources, assets, and people.

1. Introduction

The specification introduced in [1][2][3] highlights that Bluetooth 5.1 requires modifications to the radio frequency “stack”, i.e., the software protocol. Moreover, also hardware enhancements are expected depending on the chip manufacturer. It is beneficial to heed that, as the main feature, the updated protocol attaches a CTE to every Bluetooth data employed for radiogoniometry. Otherwise, packets remain unchanged to be practiced for conventional BLE transmission [1][2]. The analysis of [1] denotes that CTE is not modulated and transmitted at 250 kHz or, seldom, more than 500 kHz when employing the more effective throughput method of Bluetooth. Its continuance is between 16 and 160 μs. More in detail, as introduced in [1], CTE is composed of an “unwhitened” series of “1” communicated large adequate to permit the receiver to obtain the IQ information without modulation’s influences. As the CTE is transferred at the end, the Cyclic Redundancy Check (CRC) of the packet is not influenced.
Another notable enhancement to the spec [1] greatly simplifies protocol configuration for IQ sampling. This arrangement comprises arranging both the antenna switched and the sample timing, i.e., two fundamental values for the position estimation accuracy. Ordinarily, although several IQ sampling timing arrangements can be practiced, an IQ representation is registered every 1 or 2 μs inside the associate time per antenna. Moreover, the outcomes are reported in the Random Access Memory (RAM) of the BLE SoC. Figure 9Figure 1 shows how the received signal phase varies as different array antennas sample it.
Figure 91. A single transmitter signal shows a different phase when it reaches the antennas at different distances from the source.

References

  1. 1. Bluetooth Special Interest Group (SIG). Bluetooth Core Specification Version 5.1 Feature Overview. 2019. Available online: (accessed on 15 January 2021).
  2. 2. Bluetooth Special Interest Group (SIG). Bluetooth Legacy Specification. 2019. Available online: (accessed on 15 January 2021).
  3. 3. Bluetooth Special Interest Group (SIG). Bluetooth 5.1 Direction Finding. 2019. Available online: (accessed on 15 January 2021).
  4. 4. Dialog Semiconductor. SmartBondTM DA1469x Product Family. 2019. Available online: (accessed on 15 January 2021).
  5. 5. Silicon Labs. UG427: EFR32xG21 2.4 GHz 20 dBm Wireless Starter Kit User’s Guide. 2020. Available online: (accessed on 15 January 2021).
  6. 6. Nordic Semiconductor. Bluetooth Low Energy, Bluetooth Mesh, NFC, Thread and Zigbee Development Kit for the nRF52840 SoC. 2020. Available online: (accessed on 15 January 2021).

Keywords

Bluetooth 5.1;Bluetooth Low Energy;Bluetooth Direction Finding;indoor localization;asset traceability;Internet of Things