Search
With the booming development of the Internet of Things, high-precision positioning technology has become a key requirement in many application scenarios. From the precise management of personnel and materials in smart industries, to convenient navigation and asset management in smart buildings, to indoor navigation services that enhance user experience in the consumer field, reliable positioning technology is indispensable. Bluetooth AOA (angle of arrival) and AOD (angle of departure) are direction finding positioning technologies introduced by the Bluetooth 5.1 specification. With their unique advantages, they have brought new breakthroughs to indoor positioning and gradually become the focus of industry attention. So, how does Bluetooth AOA/AOD achieve direction finding positioning, and what are its characteristics and advantages?
Technical Principles of Bluetooth AOA/AOD
Both Bluetooth AOA and AOD are direction finding positioning technologies based on Bluetooth signals. The core is to use antenna arrays and phase differences to calculate the direction of the signal.
In Bluetooth AOA technology, the transmitter is usually a tag with a single antenna, which sends a broadcast data packet containing CTE (constant frequency extended signal). The receiving end is equipped with an antenna array. When the signal reaches the antenna array, the received signal will have a phase difference due to the different distances from each antenna to the transmitting antenna. The receiving end samples the signal in sequence by switching the antennas in the array to obtain IQ (in-phase and quadrature phase) data. These IQ data will be passed to the Bluetooth protocol stack, and the angle of arrival of the signal will be calculated using a specific algorithm. For example, in the indoor positioning system of a shopping mall, the single-antenna Bluetooth device carried by the customer is used as the transmitter, and multiple Bluetooth base stations with antenna arrays installed in the mall are used as the receiver. By measuring the angle of arrival of the signal and combining the data of multiple base stations, the customer's position can be accurately located.
Bluetooth AOD technology is the opposite of AOA. The transmitting end is a device with an antenna array, such as a Bluetooth positioning beacon, which sends a signal containing CTE through each antenna. The receiving end is usually a single-antenna device, such as a smartphone. When signals from different antennas in the array reach the receiving end, a phase difference will also be generated. The receiving end extracts the IQ data from the signal packet and forwards it to the positioning engine, which uses this data to determine the angle of the received signal and then the direction of the transmitter. In indoor navigation applications, the Bluetooth positioning beacon in the mall is used as the transmitter, and the customer's mobile phone is used as the receiver. By analyzing the phase change of the signal, the mobile phone can determine its position relative to the beacon and achieve accurate navigation.
Technical advantages of Bluetooth AOA/AOD
High-precision positioning
Bluetooth AOA/AOD positioning technology can achieve sub-meter or even centimeter-level positioning accuracy. Compared with traditional positioning technology based on RSSI (received signal strength indication), it no longer relies on low-precision wireless signal strength information, but determines the direction of the incoming radio electromagnetic wave by analyzing high-precision phase information. In the field of smart industry, this high-precision positioning can achieve accurate tracking of materials and equipment on the production line, improve production efficiency and management level. For example, in an automobile manufacturing plant, the location and status of parts can be grasped in real time through Bluetooth AOA/AOD technology to ensure the smooth progress of the production process.
Low power consumption and low cost
Bluetooth AOA/AOD technology uses low-power Bluetooth (BLE) devices as transmitters, such as smartphones, wearable devices or dedicated tags. These devices have a long battery life, which reduces operating costs. At the same time, as a standard feature of smart terminals such as mobile phones, Bluetooth provides an excellent technical port for the rapid penetration of indoor high-precision positioning from the B-end to the C-end, and further reduces the deployment cost. In the asset tracking scenario of smart buildings, low-power Bluetooth tags are used to locate devices, without the need to frequently replace batteries, which greatly reduces maintenance costs.
Wide compatibility and simplified deployment
The widespread popularity and high compatibility of Bluetooth technology make the Bluetooth AOA/AOD positioning system easily integrated into various smart devices. Users only need to add AOA/AOD support to existing Bluetooth devices to achieve the positioning function, greatly reducing the complexity of system deployment and maintenance. In places such as shopping malls, there is no need to make large-scale modifications to the existing Bluetooth infrastructure. Just add base stations and tags that support AOA/AOD to quickly build a high-precision indoor positioning system.
Strong anti-interference ability
In multipath reflection and interference environments, Bluetooth AOA/AOD technology can still maintain stability and reliability. It uses multiple antenna arrays to receive signals and calculates the phase difference to determine the signal arrival angle, effectively reducing the impact of environmental interference on positioning accuracy. In places with dense crowds and complex signals, such as large exhibition centers, Bluetooth AOA/AOD technology can accurately locate exhibitors and equipment, providing strong support for exhibition management and services.
Application scenarios of Bluetooth AOA/AOD
Smart industry
In smart manufacturing fields such as automobile assembly and manufacturing, electronic manufacturing, etc., Bluetooth AOA/AOD technology can realize personnel management, material location tracking, production process traceability, adapter tool search and error prevention. By combining Bluetooth high-precision positioning technology with RFID technology, barcodes and QR codes, it can also improve warehousing order and material circulation efficiency. For example, in an electronic manufacturing factory, Bluetooth AOA/AOD technology can be used to monitor the location of raw materials and semi-finished products in real time to ensure the smooth progress of the production process and improve the management efficiency of the warehouse.
Smart building
Bluetooth AOA/AOD technology brings new location service functions to smart buildings, providing efficient solutions from navigation, asset management to space utilization. In places such as nursing homes, children's playgrounds, and prisons, functions such as electronic fences for personnel, out-of-bounds alarms, employee inspection clocking in, visitor positioning, and material supervision can be realized. In large shopping malls, by providing users with navigation and route planning, scientific guidance and diversion of the crowd, ensuring operational safety and improving operational efficiency, it can also accurately push products based on the user's location information and optimize operations.
Consumption field
In airports, parking lots, transportation hubs and other places, Bluetooth AOA/AOD technology can provide users with navigation and route planning services to help users quickly find their destinations. In exhibition centers, museums and other places, intelligent navigation and guidance services are realized to guide visitors to the booths they want to go to in real time, and the location data of the visitors is accurately counted, and the viewing trajectory and stay time of exhibitors and staff in the exhibition hall are checked to achieve accurate analysis of the exhibition effect, providing a clear direction for the subsequent work of improving the quality of the exhibition.
As an important innovation introduced by the Bluetooth 5.1 specification, Bluetooth AOA/AOD technology has brought new development opportunities to the field of indoor positioning. Its unique technical principles, significant advantages and wide application scenarios give it huge development potential in the era of the Internet of Things.
Search 
Blog & News
