Cos'è RTLS? Una guida completa ai sistemi di localizzazione in tempo reale.

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Il sistema RTLS sfrutta principalmente i sensori, comunicazione wireless e tecnologia di cloud computing per determinare la posizione di "oggetti" con tag. Authorized users are able to access the location data of tagged objects through a local computer and cloud platform in applications like tracking goods, veicoli, persone, pets, eccetera. This article brings you a clear understanding of RTLS!

1. Cos'è RTLS?

Cos'è RTLS

A real-time locating system mainly takes advantage of sensors, comunicazione wireless e tecnologia di cloud computing per determinare la posizione di "oggetti" con tag. Authorized users are able to access the location data of tagged objects through a local computer and cloud platform in applications like tracking goods, veicoli, persone, pets, eccetera.

RTLS is applicable to various application scenes covering logistics supply chains, objects and people. Tuttavia, the system has some limitations. Ad esempio, devices deployed in remote areas require power reserves that can ensure months of stable operation; Fast-moving devices in transportation hubs or production lines require higher update rates; and when it comes to high-value monitoraggio delle risorse, security is of great importance.

2. Come funziona il sistema di localizzazione Teal-Time

Come funziona il sistema di localizzazione Teal-Time

RTLS is a signal-based system that locates objects or people through radio technology. It can be categorized into active RTLS and passively-inductive RTLS. The active RTLS can be divided into AOA, TDOS, TPA, TW-TOF, NFER, eccetera.

1. RTLS Bluetooth

Indoor technology with Bluetooth takes use of Bluetooth LAN access points installed indoors to keep the network as a basic network-connected model based on multiple users and ensures that Bluetooth LAN access points remain the chief device of this micro-network. Then it triangulates the newly-added blind nodes through the strength measurement of the signal.

Attualmente, there are two major ways of locating using Bluetooth iBeacon: RSSI-based one and fingerprint-based one, or a mixture of the two.

2. RTLS Wi-Fi

There are two types of positioning technologies with Wifi. A type is to triangulate a person and cars more precisely by a different algorithm through wireless signal strength of a mobile device and 3 wireless network access points. Un altro tipo consiste nel registrare in anticipo la potenza del segnale di molti punti di posizione confermati e quindi decidere la posizione confrontando la potenza del segnale dei dispositivi appena aggiunti con il database pieno di dati.

Vantaggi: Elevata precisione complessiva, basso costo per l'hardware e velocità di trasmissione elevata; È applicabile per eseguire posizionamenti complessi e ad ampio raggio, attività di rilevamento e tracciamento.

Aree applicabili: La localizzazione WiFi può essere utilizzata per localizzare persone o veicoli e utilizzata in diversi casi che richiedono la localizzazione & navigazione come centri medici, un parco a tema, impianti, centri commerciali, eccetera.

3. RFID RTLS

RFID si riferisce a una tecnologia di comunicazione wireless in grado di localizzare oggetti speciali e leggere i dati correlati tramite RF senza contatto meccanico o ottico tra il sistema e gli oggetti speciali.

RFID indoor locating technology utilizes RF way to fix antennas to tune radio signals into electromagnetic fields. Then the tag that is attached to items enters into the field after induction current generation to transmit data out to exchange data among multi-pair of two-way communication so as to achieve identification and triangulation.

The radio signal is the electromagnetic field tuned to RF, transferring data from tags attached to objects to automatically determine and track it. Several tags gather energy from electromagnetic fields emitted by the identifier without batteries in the identification process. Some tags are equipped with different power supplies and are able to emit radio waves in an active way(tuned to RF electromagnetic fields).

The tags, which are included with information that is stored electronically, can be identified within several meters. Different from bar codes, the RF tags can be embedded within tracked objects with no need to be in the range of identification machines.

4. Zigbee RTLS

ZigBee (a low-power LAN protocol based on IEEE802.15.4 standard) indoor positioning technology creates a network between several to-be-measured nodes and reference nodes and gateways. The to-be-measured nodes in the network send broadcast messages and collect data from each neighboring reference node. Then it chooses X as well as Y coordinates of reference nodes that have the strongest signal. Dopo di che, the coordinates of more nodes associated with reference nodes are counted. In definitiva, data in the locating engine is operated and the offset value of nearest reference nodes is viewed to acquire the real location of nodes to be measured in large networks.

5. RTLS UWB

Banda ultralarga (UWB) positioning technology is a new technology that differs significantly from traditional communication and positioning technologies. It utilizes pre-arranged anchored as well as bridged nodes with given locations to form connections with newly-added blind nodes. Then it triangulates or locates them with “fingerprints” to identify the location.

Recentemente, Ultra-wideband wireless (UWB) technology has become an indoor wireless locating technology proposed with high precision. Its time resolution can be reached to nanosecond level. Combined with the time-of-arrival-based ranging algorithm, it can theoretically achieve centimeter-level positioning precision, which can meet the positioning requirements of industrial applications.

6. RTLS a infrarossi

There are two kinds of infrared indoor locating. The 1st one represents the target is positioned using infrared IR markers as moving points, emitting modulated infrared rays, which are taken by optical sensors installed in rooms for locating; the 2rd one is to cover the space to be estimated by several pairs of transmitters & receivers weaving infrared network to directly determine moving targets.

7. RTLS ad ultrasuoni

Ultrasound locating technology is developed according to the ultrasonic ranging system. It consists of several transponders and main rangefinders. The working process is: chief rangefinders are put on an object to be measured and transmit radio signals to transponders in a fixed location, and transponders transfer ultrasonic signals to chief rangefinders after taking the signal, which can help determine the location of the objects using algorithms such as reflective-ranging method and triangulation.

8. iBeacon RTLS

iBeacon Positioning

Equipped with Bluetooth 4.0, iBeacon is a new indoor micro-location technology. It is currently available for iOS, Android, Windows and Blackberry devices, all of which are embedded with Bluetooth Low Energy (BLE) tecnologia. When your handheld device gets close to an iBeacon base station, the device is able to acquire the iBeacon signal (UUID and RSSI), which can range from a few millimeters to 50 metri, and the precise location can be obtained through a weighted three-loop positioning algorithm normally reaching 2m precision.

3. Le sfide di RTLS

Challenges of RTLS

Given that RTLS has effective tracking of IoTs devices, why not install positioning functions for each one? The main reason lies in the costly traditional Tecnologia GPS used for geolocation, certain technical challenges of the successful deployment and higher power consumption for its operation.

1. Costo RTLS

How long does a set of solutions system take on gathering the location of devices? Whether the locations are collected daily or every minute? The device collection frequency is directly linked to cost and battery life. In many circumstances,

traditional GPS technologies are incapable of satisfying the user’s needs in these two fields.

2. Durata della batteria

The power consumption of traditional GPS positioning modules is exceedingly high. Anche, the module battery has to be changed multiple times each year. In certain cases, asset trackers are installed in some locations that are hard to conduct maintenance or installed inside fleets. Such deployment gives rise to the extremely high cost of changing batteries. In particular that if thousands of trackers are deployed on the field, the change of battery will be time-consuming and effort-consuming.

3. Manutenzione in fase successiva

Device maintenance and even massive repairs are indispensable since several Dispositivi IoT have a lifespan of 5 anni, 10 and even 20 anni. Tuttavia, connected devices can be “lost” if they fail to send notifications or change ownership of the business due to a depleted battery.

4. Rata

It will be easy to make mistakes when deploying IoT devices. Ad esempio, it will be prone to errors when you assemble a sensor into a building manually. Cosa c'è di più, the positioning module can be transferred from one place to another without updating the tracking logs manually.

4. Vantaggi di RTLS

Vantaggi di RTLS

People will first think of GPS when mentioning positioning locating systems. The GNSS-based (Sistema globale di navigazione satellitare) satellite positioning has become ubiquitous. Tuttavia, satellite positioning has its key drawback, questo è, signals can not penetrate into buildings to realize posizionamento interno.

COSÌ, how to tackle the issues concerning indoor locating?

With the constant growth of demands in the indoor positioning market, tecnologia di comunicazione senza fili, sensor identification technology and big data interconnection technology, solutions are on the rise. The industry chain continues to develop.

Indoor positioning can be divided into consumption-based and industry-based locating.

The consumption-based positioning can mainly be applied in commercial functions like indoor personnel guidance, consumer push, monitoraggio della sicurezza, casa intelligente, eccetera;

The industry-based one can be used in fire protection safety, personnel monitoring, equipment guidance, property security, smart factory, and intelligent construction sites and so on.

Posizionamento interno con Bluetooth

Punti di forza: compact device, breve distanza, basso consumo energetico, easy integration into mobile devices like a cell phone;

Drawbacks: Bluetooth transmission is not affected by sight distance, but for the complex space & ambiente, the less stable Bluetooth system, high noise interference, expensive Bluetooth devices;

Posizionamento interno con WiFi

Punti di forza: relatively high overall precision, low cost for hardware, high transmission rate; can be used for large-scale positioning, attività di rilevamento e tracciamento.

Drawbacks: short transmission distance, high power consumption, and generally with star topology structure.

Posizionamento interno con RFID

Vantaggi: RFID indoor positioning technology works at a very close distance but it is able to gather centimeter-level positioning accuracy information in a few milliseconds; The tag is relatively small in size and low in cost.

Drawbacks: no communication capability, poor anti-interference ability, no easy integration into other systems and under-developed protection of security & privacy and global standardization of users.

Posizionamento indoor con Zigbee

Benefici: basso consumo energetico, cost-saving, short delay, large capacity and high security, long transmission distance; be able to sustain structures of mesh topology, tree topology as well as star topology, adaptable networking, multi-hop channeling;

Svantaggi: bassa velocità di trasmissione, high algorithm requirements for positioning precision.

Posizionamento indoor con UWB

Vantaggi: with GHz bandwidth, high positioning accuracy; strong penetration, good anti-multipath effect and high security.

Shortcomings: But the newly added blind nodes also need active communication making the power consumption higher, and the system is costly

Posizionamento indoor con infrarossi

Vantaggi: high precision for indoor locating, powerful anti-interference capability;

Drawbacks: Infrared can only be transmitted by sight, poor penetration performance; when the tag is blocked it can not function properly but be vulnerable to lighting, smoke and other environmental factors;

Posizionamento indoor con ultrasuoni

Vantaggi: high overall positioning precision, reach the centimeter level; relatively simple structure, good penetration ability as well as a strong anti-interference ability for the ultrasound.

Svantaggi: large attenuation in the air, inapplicable to large occasions; it is greatly affected by multipath effects and non-visual propagation when measuring reflection distance, resulting in a high cost of investment when requiring bottom hardware for precise analysis and calculation.

5. Quali tecnologie sono utilizzate in RTLS

technologies are used in RTLS

RTLS technology

RTLS typically is comprised of three parts: the RTLS tag, infrastructure as well as software. The performance and function of the solutions rely on the specific technology choices made during the RTLS solutions development process.

Using RFID technology, RTLS systems determine the location of “objects” with tags as it passes near a fixed reader, and then send information about the event to a server.

Bluetooth RSSI, also Received Signal Strength Indicator, is applicable for RTLS in indoor scenes. A Bluetooth beacon deployed in the monitored area “monitors and listens” to the signal from the Bluetooth tag to determine if the tagged object or person locate within the coverage of the Bluetooth signal, so as to provide “room-level” positioning precision.

Similar to Bluetooth RSSI, Wi-Fi beacons can be applied to detect nearby Wi-Fi RTLS tags, providing “room-level” accuracy. O, time-of-flight methods can be used to provide a more accurate location of mobile assets.

Cellular 3G and 4G LTE technologies provide rough locating information based on cellular network fingerprinting, where equipment detects nearby cellular base stations and compares them to the worldwide fingerprint database that has established geographic location mappings. Featuring higher precision, 3G and 4G LTE real-time tracking solutions depend on different mixtures of immobile and mobile network infrastructure, with more solutions to emerge as the number of 5G deployment increase rapidly.

GNSS-based RTLS systems are dependent on GNSS receivers which define their locations through the measurement of the time it spends on the GNSS satellite signal to approach them from orbit. Because of weak GNSS signals, they cannot penetrate walls and buildings so only be used outdoors.

Ultra-wideband technology and Bluetooth indoor positioning with high precision are two technologies that are able to offer sub-meter level positioning precision.

An RTLS tag is possible to cover additional sensors to collect additional messages about the asset being tracked. Positioning modules with inertial sensors can detect when an asset is dropped or supplement satellite-based positioning when GNSS signals are lost. Allo stesso modo, temperature sensors detect temperature excursions that are possible to spoil sensitive cargo.

To offer location data to users, RTLS require a data pipeline connected to the Internet. Outdoor real-time tracking solutions, including GNSS-based solutions, provide excellent services for certain cellular communication improved through low power consumption as well as max coverage like LTE Cat 1 or LTE-M.

6. L'applicazione dell'RFID in RTLS

RFID Application in RTLS

RTLS has been well-developed in many examples, and the number is estimated to increase rapidly in the following years since the technology changes to be precise, more accessible and to form tighter integration into operations.

RTLS Sanità / Medico

Staff in hospitals spend a significant portion of time on locating medical equipment, which puts additional strain on an already strained system. RTLS in hospitals is conducive to quickly locating beds and medical devices and may also help locate doctors, staff and patients.

Automazione del magazzino

RTLS system is useful to automatically manage inventory and locate goods on shelves.

Trasporti e logistica

Real-time locating services give enterprises a deep understanding of all aspects related to the process of supply and distribution. Apart from the improvement of supply chain management, companies can also use data provided by RTLS to alleviate bottlenecks and simplify its procedure as well as monitor remotely the process of their goods, thus boosting the product quality.

Gestione della flotta

RTLS can give hands to fleet managers to track their vehicles, compresi i camion, cabs, automobili, shared ones, eccetera. Micro-mobile solution providers(such as those who supplies shared electric scooters) have increased their use of highly precise RTLS technology to force themselves to abide by local regulations such as bans on driving on sidewalks.

Snodo dei trasporti

Trasporti hubs including an airport and train station can track luggage trailers, passengers with particular demands, ground personnel and other passengers through Real-Time Locating System technology. Data collected from the technology can be analyzed to detect and tackle operation problems and improve the overall travel experience.

7. Soluzioni RTLS

Soluzioni RTLS

U-Blox has always conducted innovative R&D based on GNSS positioning algorithms, the RF and signal processing technologies since its founding in 1997. Al giorno d'oggi, it has been dedicated to developing integration solutions on “cloud-on-a-chip”, which has enabled itself to take the lead in technological innovation. U-Blox has also grown into a company with deep market insights which allow itself to precisely understand markets and users’ needs.

In addition to providing GNSS positioning solutions, U-Blox has a good grasp of the increasing demand for device communication and indoor positioning from IoT users. Perciò, u-Blox has not only extended its product line of cellular communication and short-range communication but also provided the market with a mixture of modules that can achieve both GNSS positioning and cellular communication functions to help users come up with compact RTLS solutions.

With the rapid growth of big data and smart connectivity technologies, u-Blox is not satisfied with being a hardware provider of location and communication technologies. The company is considering how to leverage services to maximize the business value of location information in IoT devices and provide one-stop services to customers through a “hard and soft” approach to empower customers in various fields to achieve rapid RTLS deployment.

AssistNow decreases power consumption by shortening the first positioning time using GNSS.

when GNSS signals are not available, CellLocate can still conduct rough locating using cellular network fingerprinting technology.

CloudLocate calculates location via the cloud for application scenes requiring ultra-low power consumption where continuous tracking is not required.

PointPerfect provides GNSS-enhanced data services for centimeter-level positioning precision in seconds.

U-Blox Thingstream supports customers to tackle complex challenges of IoT connectivity with an extensive end-to-end solution according to the industry standard MQTT. This enables customers to transfer data from IoT equipment to the cloud of companies without additional communication carrier fees.

Inoltre, U-Blox IoT “Security as a Service” brings the “end-to-end” concept to real life based on unique and immutable device identity and a reliable root of trust. It effectively stops sensitive data from being disclosed at intermediate nodes, platforms and services to ensure that your RTLS tags and other infrastructure only operate actual firmware and that the data generated during the operation is only visible to its target users.

8. Quali sono le famose società RTLS

Siemens RTLS

Versus Technology

Ubisense Group

AiRISTA

Tecnologie Zebra

BeSpoon

Axcess International

Stanley Healthcare

Essensium

Savi Technology

TeleTracking

Sonitor Technologies

TimeDomain

Identec Solutions

Intelleflex

GE Sanità

Awarepoint Corporation

Elpas

Dieci

IBM

CenTrak