Smart Tracking
Smart tracking refers to the ability to monitor and track objects, people or animals in real time using intelligent technologies. These technologies may include sensors, GPS devices, Radio-Frequency Identification (RFID), Beacons, cameras, and other tracking devices.
Smart tracking can be used in many contexts, for example to monitor the position and movement of vehicles in company fleets, to track inventory in warehouses, to monitor animals in pastures or to improve people’s safety in emergency situations .
Thanks to the use of intelligent technologies, smart tracking can provide real-time information, allowing you to make quick and informed decisions. Furthermore, it can be used to improve efficiency and productivity in business operations and to improve the safety of people and animals.
However, it is also important to consider the privacy and data security concerns associated with using smart tracking. It is important to ensure that the information collected is protected and that sensitive data is treated securely and in compliance with privacy and data security regulations.
The use cases and opportunities for implementing an asset tracking solution are different:
- Theft prevention
- Tracking of high value goods
- Real-time information on machinery and equipment
The benefits for the company are obvious. The aim is to track goods, parcels, goods, foodstuffs with assured freshness, as well as e.g. transport of organs and blood.
- Parcel tracking
- Parcel tracking and opening
- Cold chain monitoring
- Euro pallets
- Wi-Fi control
- Temperature alerts
Ottimizza l'utilizzo dei tuoi asset
Controlla tutte le tue risorse. Genera un impatto diretto sui vantaggi della tua attività evitando la perdita dei tuoi asset. Ottimizza l’utilizzo delle tue risorse.
Ottimizzazione dell’utilizzo delle tue risorse Conosci sempre la situazione reale dei tuoi beni e prendi migliori decisioni. Riposizionali secondo le tue esigenze ed evita tempi morti o periodi di inattività.
Ricevi avvisi all’istante Se i tuoi beni hanno deviato dal tuo percorso o dalla posizione prevista, controlla automaticamente gli ingressi e le uscite dei magazzini con un sistema di allerta.
L’implementazione di una soluzione di tracciamento delle risorse come Smart Tracking ti consentirà di reagire immediatamente a situazioni avverse come la perdita di risorse, mitigando il rischio di perdita e riducendo direttamente l’impatto per la tua attività. Conoscere la situazione esatta dei tuoi asset in tempo reale consentirà ai tuoi team di anticipare situazioni anomale e prendere decisioni più intelligenti per offrire un servizio migliore.
IoT and AI
The Internet of Things (IoT) refers to the connection of physical devices and objects via the Internet. AI, on the other hand, refers to the ability of computers to learn and improve the performance of the tasks assigned to them.
AI and IoT can be combined to create innovative solutions that allow you to collect, analyze and use data from connected devices to improve efficiency, automation and user experience. For example, IoT sensors can be used to collect data on a variety of factors, such as temperature, humidity, location and motion. This data can then be analyzed using AI to gain actionable insights, such as IoT trends, behaviors and patterns, and to generate intelligent recommendations.
The applications of IoT and AI are numerous, and can include smart home solutions, health monitoring, public safety, factory automation, precision agriculture, and much more.
The implementation of IoT and AI solutions can lead to significant benefits, such as greater efficiency, better quality of service, reduced operational costs and better understanding of data to make informed decisions. However, it is also important to consider privacy and data security concerns, as well as the need for proper management and maintenance of connected devices to ensure continued reliable performance.
IoT in medical manufacturing
IoT can be used in medical manufacturing to improve the efficiency, quality and safety of manufacturing processes. The implementation of IoT devices in medical manufacturing can allow you to monitor and control manufacturing processes in real time, improving accuracy and reducing errors.
Here are some examples of how IoT can be used in medical manufacturing:
Real-Time Monitoring: IoT sensors can be used to monitor production processes in real time, such as temperature, pressure and humidity, condition of car shocks or ensuring quality standards are met.
Predictive maintenance: IoT can be used to predict machinery and equipment failures before they happen, enabling predictive maintenance and minimizing downtime.
Product Traceability: The IoT can be used to track products and raw materials in real time, ensuring product traceability and patient safety.
Quality Control: The IoT can be used to collect real-time product quality data, allowing manufacturers to detect any quality issues quickly and in a timely manner.
In summary, the use of IoT in medical manufacturing can improve the efficiency, quality and safety of manufacturing processes, reduce errors and improve product traceability.
