IoT is enhancing vehicle performance, safety, and user experience in the Automotive Sector.

Key Applications of IoT in Automotive:

  • Connected Cars: IoT enables vehicles to collect and transmit data related to vehicle performance, location, and driver behavior. This data can be used for real-time diagnostics, maintenance alerts, and usage-based insurance.

  • Theft Prevention and Recovery: IoT can be used to monitor the location of vehicles in case of theft, and also allow them to be immobilised to aid recovery.
  • Autonomous Driving: IoT is a critical component in developing self-driving cars by providing the necessary data and connectivity to navigate and make decisions in real time.
  • Fleet Management and Real Time Tracking: IoT enables fleet managers to track the location, speed, and status of vehicles in real time, improving logistics and efficiency.
  • Personalisation: IoT allows for the personalisation of vehicle settings based on user preferences, such as seat positions, climate control, and infotainment choices.
  • Energy Management for EV’s: IoT helps manage battery life, optimise charging schedules, and locate charging stations.

Benefits of IoT in Automotive

  • Improved Safety: Enhanced communication and advanced driver assistance systems contribute to reducing accidents and improving overall road safety.
  • Enhanced Convenience: IoT enables features like remote diagnostics, personalised settings, and seamless integration with other devices, making driving more convenient.
  • Operational Efficiency: For fleet management, IoT improves route planning, reduces fuel consumption, and lowers maintenance costs.
  • Better Vehicle Performance: Real-time monitoring and predictive maintenance ensure that vehicles are always in optimal condition, improving their lifespan and performance.

How Stacuity capabilities benefit the Automotive Sector

ChallengeStacuity Solution
Security and Data Privacy: As vehicles become more connected, they are also more vulnerable to cyber-attacks.Stacuity enables secure routing of traffic whilst avoiding the public Internet.
Reliability: Dependency on connectivity increases with need for highly availability and resilience.Stacuity allows automatic failover to alternative networks to improve reliability and uptime.
Performance: Many automative applications are latency critical.Stacuity allows the vehicles directly to the back-end applications – ensuring that latency is reduced, is more predictable and consistent. Our global edge network optimises the path from vehicle to platform – further reducing latency and improving performance.
Localisation: Cost and performance benefits for data to remain in countryStacuity supports multi-IMSI and eSIMs, allowing a network profile to be selected which is optimised for country in which the vehicle is sold and used.
Coverage: The rollout of 5G networks will enhance IoT capabilities in vehicles, providing faster data transmission, lower latency, and improved reliability.Stacuity supports all generations of network to enable future proof coverage.
Edge Computing: By processing data closer to the source, edge computing can reduce latency and improve real-time decision-making in vehicles.Stacuity offer global coverage and a distributed edge network to provide low latency local data processing.
Artificial Intelligence (AI): AI, combined with IoT, will further enhance autonomous driving capabilities and enable more sophisticated predictive maintenance and personalisation features.The Stacuity routing policies allow traffic to be transparently routed via AI platforms to continuously train models which can subsequently be used to optimise behaviour and performance and identify anomalies
Sustainability: IoT will play a significant role in the shift towards electric and autonomous vehicles, contributing to more sustainable and efficient transportation systems.Our unique remote access and real time packet capture capabilities remove the need for ‘truck rolls’ for support/troubleshooting, maintenance, and upgrades.

IoT is enhancing vehicle performance, safety, and user experience in the Automotive Sector.

Key Applications of IoT in Automotive:

  • Connected Cars: IoT enables vehicles to collect and transmit data related to vehicle performance, location, and driver behavior. This data can be used for real-time diagnostics, maintenance alerts, and usage-based insurance.

  • Theft Prevention and Recovery: IoT can be used to monitor the location of vehicles in case of theft, and also allow them to be immobilised to aid recovery.
  • Autonomous Driving: IoT is a critical component in developing self-driving cars by providing the necessary data and connectivity to navigate and make decisions in real time.
  • Fleet Management and Real Time Tracking: IoT enables fleet managers to track the location, speed, and status of vehicles in real time, improving logistics and efficiency.
  • Personalisation: IoT allows for the personalisation of vehicle settings based on user preferences, such as seat positions, climate control, and infotainment choices.
  • Energy Management for EV’s: IoT helps manage battery life, optimise charging schedules, and locate charging stations.

Benefits of IoT in Automotive

  • Improved Safety: Enhanced communication and advanced driver assistance systems contribute to reducing accidents and improving overall road safety.
  • Enhanced Convenience: IoT enables features like remote diagnostics, personalised settings, and seamless integration with other devices, making driving more convenient.
  • Operational Efficiency: For fleet management, IoT improves route planning, reduces fuel consumption, and lowers maintenance costs.
  • Better Vehicle Performance: Real-time monitoring and predictive maintenance ensure that vehicles are always in optimal condition, improving their lifespan and performance.

How Stacuity capabilities benefit the Automotive Sector

As vehicles become more connected, they are also more vulnerable to cyber-attacks.

Stacuity Solution
Stacuity enables secure routing of traffic whilst avoiding the public Internet.

Dependency on connectivity increases with need for highly availability and resilience.

Stacuity Solution
Stacuity allows automatic failover to alternative networks to improve reliability and uptime.

Many automative applications are latency critical.

Stacuity Solution
Stacuity allows the vehicles directly to the back-end applications – ensuring that latency is reduced, is more predictable and consistent. Our global edge network optimises the path from vehicle to platform – further reducing latency and improving performance.

Cost and performance benefits for data to remain in country.

Stacuity Solution
Stacuity supports multi-IMSI and eSIMs, allowing a network profile to be selected which is optimised for country in which the vehicle is sold and used.

The rollout of 5G networks will enhance IoT capabilities in vehicles, providing faster data transmission, lower latency, and improved reliability.

Stacuity Solution
Stacuity supports all generations of network to enable future proof coverage.

By processing data closer to the source, edge computing can reduce latency and improve real-time decision-making in vehicles.

Stacuity Solution
Stacuity offer global coverage and a distributed edge network to provide low latency local data processing.

AI, combined with IoT, will further enhance autonomous driving capabilities and enable more sophisticated predictive maintenance and personalisation features.

Stacuity Solution
The Stacuity routing policies allow traffic to be transparently routed via AI platforms to continuously train models which can subsequently be used to optimise behaviour and performance and identify anomalies

IoT will play a significant role in the shift towards electric and autonomous vehicles, contributing to more sustainable and efficient transportation systems.

Stacuity Solution
Our unique remote access and real time packet capture capabilities remove the need for ‘truck rolls’ for support/troubleshooting, maintenance, and upgrades.

IoT is enhancing vehicle performance, safety, and user experience in the Automotive Sector.

Key Applications of IoT in Automotive:

  • Connected Cars: IoT enables vehicles to collect and transmit data related to vehicle performance, location, and driver behavior. This data can be used for real-time diagnostics, maintenance alerts, and usage-based insurance.

  • Theft Prevention and Recovery: IoT can be used to monitor the location of vehicles in case of theft, and also allow them to be immobilised to aid recovery.
  • Autonomous Driving: IoT is a critical component in developing self-driving cars by providing the necessary data and connectivity to navigate and make decisions in real time.
  • Fleet Management and Real Time Tracking: IoT enables fleet managers to track the location, speed, and status of vehicles in real time, improving logistics and efficiency.
  • Personalisation: IoT allows for the personalisation of vehicle settings based on user preferences, such as seat positions, climate control, and infotainment choices.
  • Energy Management for EV’s: IoT helps manage battery life, optimise charging schedules, and locate charging stations.

Benefits of IoT in Automotive

  • Improved Safety: Enhanced communication and advanced driver assistance systems contribute to reducing accidents and improving overall road safety.
  • Enhanced Convenience: IoT enables features like remote diagnostics, personalised settings, and seamless integration with other devices, making driving more convenient.
  • Operational Efficiency: For fleet management, IoT improves route planning, reduces fuel consumption, and lowers maintenance costs.
  • Better Vehicle Performance: Real-time monitoring and predictive maintenance ensure that vehicles are always in optimal condition, improving their lifespan and performance.

How Stacuity capabilities benefit the Automotive Sector

ChallengeStacuity Solution
Security and Data Privacy: As vehicles become more connected, they are also more vulnerable to cyber-attacks.Stacuity enables secure routing of traffic whilst avoiding the public Internet.
Reliability: Dependency on connectivity increases with need for highly availability and resilience.Stacuity allows automatic failover to alternative networks to improve reliability and uptime.
Performance: Many automative applications are latency critical.Stacuity allows the vehicles directly to the back-end applications – ensuring that latency is reduced, is more predictable and consistent. Our global edge network optimises the path from vehicle to platform – further reducing latency and improving performance.
Localisation: Cost and performance benefits for data to remain in countryStacuity supports multi-IMSI and eSIMs, allowing a network profile to be selected which is optimised for country in which the vehicle is sold and used.
Coverage: The rollout of 5G networks will enhance IoT capabilities in vehicles, providing faster data transmission, lower latency, and improved reliability.Stacuity supports all generations of network to enable future proof coverage.
Edge Computing: By processing data closer to the source, edge computing can reduce latency and improve real-time decision-making in vehicles.Stacuity offer global coverage and a distributed edge network to provide low latency local data processing.
Artificial Intelligence (AI): AI, combined with IoT, will further enhance autonomous driving capabilities and enable more sophisticated predictive maintenance and personalisation features.The Stacuity routing policies allow traffic to be transparently routed via AI platforms to continuously train models which can subsequently be used to optimise behaviour and performance and identify anomalies
Sustainability: IoT will play a significant role in the shift towards electric and autonomous vehicles, contributing to more sustainable and efficient transportation systems.Our unique remote access and real time packet capture capabilities remove the need for ‘truck rolls’ for support/troubleshooting, maintenance, and upgrades.

IoT is enhancing vehicle performance, safety, and user experience in the Automotive Sector.

Key Applications of IoT in Automotive:

  • Connected Cars: IoT enables vehicles to collect and transmit data related to vehicle performance, location, and driver behavior. This data can be used for real-time diagnostics, maintenance alerts, and usage-based insurance.

  • Theft Prevention and Recovery: IoT can be used to monitor the location of vehicles in case of theft, and also allow them to be immobilised to aid recovery.
  • Autonomous Driving: IoT is a critical component in developing self-driving cars by providing the necessary data and connectivity to navigate and make decisions in real time.
  • Fleet Management and Real Time Tracking: IoT enables fleet managers to track the location, speed, and status of vehicles in real time, improving logistics and efficiency.
  • Personalisation: IoT allows for the personalisation of vehicle settings based on user preferences, such as seat positions, climate control, and infotainment choices.
  • Energy Management for EV’s: IoT helps manage battery life, optimise charging schedules, and locate charging stations.

Benefits of IoT in Automotive

  • Improved Safety: Enhanced communication and advanced driver assistance systems contribute to reducing accidents and improving overall road safety.
  • Enhanced Convenience: IoT enables features like remote diagnostics, personalised settings, and seamless integration with other devices, making driving more convenient.
  • Operational Efficiency: For fleet management, IoT improves route planning, reduces fuel consumption, and lowers maintenance costs.
  • Better Vehicle Performance: Real-time monitoring and predictive maintenance ensure that vehicles are always in optimal condition, improving their lifespan and performance.

How Stacuity capabilities benefit the Automotive Sector

As vehicles become more connected, they are also more vulnerable to cyber-attacks.

Stacuity Solution
Stacuity enables secure routing of traffic whilst avoiding the public Internet.

Dependency on connectivity increases with need for highly availability and resilience.

Stacuity Solution
Stacuity allows automatic failover to alternative networks to improve reliability and uptime.

Many automative applications are latency critical.

Stacuity Solution
Stacuity allows the vehicles directly to the back-end applications – ensuring that latency is reduced, is more predictable and consistent. Our global edge network optimises the path from vehicle to platform – further reducing latency and improving performance.

Cost and performance benefits for data to remain in country.

Stacuity Solution
Stacuity supports multi-IMSI and eSIMs, allowing a network profile to be selected which is optimised for country in which the vehicle is sold and used.

The rollout of 5G networks will enhance IoT capabilities in vehicles, providing faster data transmission, lower latency, and improved reliability.

Stacuity Solution
Stacuity supports all generations of network to enable future proof coverage.

By processing data closer to the source, edge computing can reduce latency and improve real-time decision-making in vehicles.

Stacuity Solution
Stacuity offer global coverage and a distributed edge network to provide low latency local data processing.

AI, combined with IoT, will further enhance autonomous driving capabilities and enable more sophisticated predictive maintenance and personalisation features.

Stacuity Solution
The Stacuity routing policies allow traffic to be transparently routed via AI platforms to continuously train models which can subsequently be used to optimise behaviour and performance and identify anomalies

IoT will play a significant role in the shift towards electric and autonomous vehicles, contributing to more sustainable and efficient transportation systems.

Stacuity Solution
Our unique remote access and real time packet capture capabilities remove the need for ‘truck rolls’ for support/troubleshooting, maintenance, and upgrades.

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Our mission is empowering IoT connectivity providers and customers with control of mobile connectivity, so that they can build a better future with IoT technology.