30S takes you to understand the 10 key points of UWB positioning solutions for power UWB modules. What is UWB? What is the application field of UWB? What are the features and advantages? Let us understand in a few sentences. There are also industry terms for reference.
Recently, Qorvo Semiconductor has compiled the basic information of ultra-wideband UWB. Those who do not have time to read the whole book can read it:
(1) UWB will be the next important positioning technology. It provides solutions for more than 40 vertical markets including consumer, mobile, transportation, and industrial applications.
(2) The Alliance is also always ready to help. The UWB industry is promoting success and interoperability through collaborations with consortia such as the Fineranging Consortium, the Connected Vehicle Consortium (CCC) and the UWB Consortium, and is working closely with the Institute of Electrical and Electronics Engineers (IEEE).
(3) UWB super precision. For distance and location measurements, it is 100 times more accurate than Bluetooth Low Energy (BLE) and Wi-Fi, within a few centimeters.
(4) The introduction of UWB can open up many new opportunities. It can provide location information based on context, process efficiency and safety applications.
(5) UWB module UWB positioning solution is very reliable. It is not susceptible to multipath interference, so its reliability is better than other schemes.
(6) UWB has low latency performance, 50 times faster than Global Positioning System (GPS). Unlike GPS, it also works both outdoors and indoors.
(7) UWB meets the standard requirements. Meet the requirements of the 2020 IEE802.15.4a international standard and the revised version IEE802.15.4z.
(8) UWB is very safe. Comply with the security requirements specified by 802.15.4z, improve 802.15.4a through additional encryption options and improvements, and improve the integrity and accuracy of ranging measurement.
(9) UWB is ready. UWB module UWB positioning solution technology is ready for widespread adoption. Due to its small form factor, low power consumption, and affordability, it is very attractive to equipment manufacturers.
(10) UWB is a promising technology in all current position and distance measurement technologies. This is because it achieves a unique combination of precision, speed, safety and cost-effectiveness. UWB is poised to replace today's and future positioning technology solutions.
Glossary
Automated Guided Vehicle (AGV): A portable robot that walks along lines marked on the floor or navigates using radio waves, vision cameras, magnets or lasers.
Anchor: The electronics in the Real Time Positioning System (RTLS) are used to detect UWB information sent by UWB tags. If necessary, it can also be forwarded to a location server to calculate the tag position.
Augmented Reality (AR): A composite view technology that superimposes computer-generated imagery on the user's perspective of the real world.
Business (B2B): Business to companies rather than individual consumers.
Bluetooth Low Energy (BLE): The standard version of Bluetooth wireless, designed for low-power applications.
Pulse Position Modulation (BPM): The modulation method defined in 802.15.4a ignores the convolution check bits that determine the pulse position.
Binary Phase Shift Keying (BPSK): A biphase modulation scheme in which 0s and 1s in binary information are represented by two different phase states in the carrier signal: binary 1s and binary 0s. In digital modulation techniques, a set of basis functions is chosen for a particular modulation scheme.
Connected Car Consortium (CCC): A cross-industry organization dedicated to promoting global technologies for smartphone-to-car connectivity solutions.
Device-to-device (peer-to-peer) service: A distributed application architecture that divides tasks or workloads among peers.
Digital key: A function of using a smart device as a key. The use of a digital key is the same as a physical key or a remote key. Mainly used for switches.
Ethernet: Connecting multiple computer systems to form a local area network (LAN) system. The system utilizes protocols to control information transmission to avoid simultaneous transmission of two or more systems.
Federal Communications Commission (FCC): The independent agency of the U.S. government that regulates radio, television, wire, satellite, and cable communications in the United States.
Finerange Alliance (Fira): A non-profit organization promoting the adoption of ultra-wideband technology (UWB) in use cases such as access control, location services, and device services.
Flash memory: A type of memory that can hold data without power (programmable non-volatile memory).
Global Positioning System (GPS): An accurate global navigation and survey facility that measures and locates based on received orbiting satellite signals.
Proximity Access: An advanced solution that allows employees to easily and conveniently enter and exit secure areas throughout a building or facility without the need to present an access card.
Institute of Electrical and Electronics Engineers (IEEE): Technical professional organization that promotes technological advancement.
Industry 4.0: Continuous automation of traditional manufacturing and industrial practices using modern smart technologies. By integrating large machines, increasing the automation of machine communication (M2M) and the Internet of Things (IoT), improving communication and self-monitoring, producing intelligent machines that can analyze and diagnose problems without human intervention.
Operability: Products, systems, applications, and services from different vendors work together reliably and in a predictable manner.
Internet of Things (IoT): A system of smart interconnected devices.
Location Services: Software services that use geographic data and information to provide services or information to users.
Line of Sight (LOS): A characteristic of electromagnetic radiation or sound wave propagation is that the sound wave takes a direct path from the sound source to the receiver.
Long Term Evolution for Machines (LTE-M): A telecommunication standard for high-speed wireless communications developed by the 3rd Generation Partnership Project (3GPP).
Low Power Wide Area Network (LPWAN): A wireless telecommunications network designed to allow long-range communication between battery-operated sensors and devices connected at low bit rates.
Megahertz (MH measurement standard. One megahertz is equal to one million hertz.
Narrowband Internet of Things (NB-IoT): The LPWAN standard that utilizes cellular communication frequency bands to connect various devices and services.
Nanosecond (ns): One billionth of a second.
Original Equipment Manufacturer (OEM): An organization that manufactures equipment using components purchased from other organizations.
Phase Difference of Arrival (PDOA): The phase difference of the received carrier is used to estimate the angle of arrival of the same frame.
Radio Frequency (RF): The frequency of oscillation of an alternating current or voltage, or of a magnetic, electric or electromagnetic field or of a mechanical system, in the frequency range of 20kHz to 300gHz.
Radio Frequency Identification (RFID): The use of electromagnetic fields to automatically identify and track tags attached to objects.
Random Access Memory (RAM): Computer memory that can be read and changed in any order; typically used to store working data and machine code (volatile random access memory).
Real Time Positioning System (RTLS): A system that automatically identifies and tracks the location of objects or people in real time, typically in buildings or other enclosed areas.
Received Signal Strength Indicator (RSSI): A measurement of the power in a received radio signal in telecommunications.
Tag: Small electronic device attached to the object to be tracked.
Time Difference of Arrival (TDOA): An electronic technique used in surveying and navigation that uses an accurately synchronized reference time to calculate when a particular signal will arrive at a physically separate receiving station.
Time of Arrival: The absolute point in time at which a radio signal travels from the transmitter to the remote receiver.
Time of Flight (TOF): A measure of the time it takes for an object, particle or sound wave to travel a distance in a medium.
Two-Way Ranging (TWR): A ranging method. The method measures the time-of-flight (TOF) of the UWB RF signal and then multiplies it by the speed of light to calculate the distance between nodes.
Ultra-Wideband Technology (UWB): IEE802.15.4a/z standard technology, optimized for safe and precise micro-positioning applications, can achieve unprecedented accuracy (within a few centimeters) by calculating the time it takes for radio signals to travel between devices .
UWB Alliance: This alliance works to promote the interoperability of Ultra Wideband (UWB) wireless computer networking products across multiple vendors.
Virtual Reality (VR): A computer-generated three-dimensional (3D) image representation of a single or multiple objects that the user interacts with in a manner similar to how they would interact with real objects.
Wireless Fidelity (Wi-Fi): A general term that refers to a communication standard for wireless networks that can operate on a local area network (LAN) without cables and wiring of any kind, also known as WLAN.
As a new technology of digital transformation, UWB module UWB positioning solution high-precision positioning technology has played a huge role in the digital construction of my country's electric power, providing strong data support. All things are revived, and all things are renewed. In the new year, let's talk electricity.
The digital economy has become a buzzword in today's market. In particular, under the impetus of the 14th Five-Year Plan, more and more power companies have been deployed. While grasping the opportunities for digital transformation, it also strives to play an active guiding role in the development of the digital economy. As a new technology of digital transformation, the technical advantages of high-precision positioning technology have played a huge role in the digital construction of my country's electric power, providing strong data support. At the beginning of the new year, Xiaobian will bring application sharing in different scenarios to start the digital journey of the new year with you.
1. A new benchmark for 5g+UWB smart power plants in thermal power plants
National Energy has been awarded the honorary title of Benchmark Power Plant by the Provincial Banking Association for many years. In order to further implement the national development and group control requirements, and promote the construction of smart power plants, National Energy introduced 5G-driven UWB location authorization to achieve the safety goals of power plant construction and create a new benchmark for 5G+UWB smart power plant demonstrations.
Using 5g network as the transmission medium of UWB positioning data, integrate location perception, 3D visualization, video surveillance, face recognition, two-ticket management and other technologies into all aspects of smart power plant safety management, and present real scene information to managers through digital twin means , so as to achieve the goal of efficient supervision and unity.
2. Substations further promote the safe operation and maintenance of substations and vigorously promote location services
Under the traditional management mode, the maintenance personnel of the 500kV substation of the power grid went to the wrong area, the supervision of the climbing operation was not in place, and the grounding wire was improperly operated. In order to break the shackles of traditional management, China Southern Power Grid introduced the UWB module UWB positioning solution IoT technology, and focused on the cutting-edge technology to improve the efficient, transparent, intelligent and safe management of substations.
On the basis of two-dimensional positioning, the three-dimensional management, grounding wire connection and dismantling judgment of ascending operators are realized on the substation site, combined with visual three-dimensional, electronic fence, video linkage, etc., so that the probability of human error operation, missed operation, and wrong area is 0 , greatly reduce the pressure of on-site management, improve the level of safe operation and maintenance, and further promote the digital construction of the power grid.
3. Realize the digital safety management of wind power and wind farms
As one of the most widely used and rapidly developing new energy sources, wind power is promoting the optimization of the entire energy structure. While the new installed capacity of wind power is increasing, wind farms are also facing some problems that need to be solved urgently. For example, wind farms are basically built in sparsely populated areas such as seas, mountains, and plains, and the surrounding infrastructure is poor, which makes infrastructure, equipment data communication, personnel operation safety monitoring and other aspects inconvenient, and even security risks.
The Beidou satellite positioning system is combined with the technology of the UWB module UWB positioning solution precise positioning system, and the Beidou positioning technology is used to enter the tower in the outdoor area and automatically switch to the UWB positioning technology. Indoor/outdoor positioning is seamlessly connected without switching, and the transition is smooth. In this way, high-precision positioning of operators and vehicles in the outdoor areas of wind farms and towers can be achieved, an intelligent safety control center will be established, and a location management platform that can be found, prevented, and controllable will be created to escort the digital safe production of wind farms.
The horn of the digital economy has sounded, and our company will continue to work hard to actively and deeply integrate the location data and power applications of UWB module UWB positioning solutions, continue to provide better services for the power industry, and accelerate the digital transformation of traditional power.
