Bosch Automotive smart IoT solutions and HMI with gesture control and haptic feedback
Connectivity is turning the car into a third living space, Bosch’s sensor technology enables connectivity beyond mobility
- Connected mobility: concept car as the third living space
- Connected capabilities helps increase Two wheeler safety
- Sensor technology: tiny sensors enable connectivity solutions for many devices and applications
- World premiere: new optical MEMS solution for IoT applications
- Bosch booth at MWC: Hall 6, booth 6E20
Barcelona, Spain – From February 27 to March 2, 2017, Bosch is showing smart IoT solutions at MWC 2017 in Barcelona. The global supplier of technology and services is presenting innovative solutions at the trade show for connected mobility and sensor technology. These technologies make everyday life easier, more comfortable, and safer. Bosch can be found in the Hall 6 at booth 6E20.
The car is becoming the third living space Alongside home and work, connectivity is turning the car into the third living space. With the help of personalized communication between the car and the driver, increasingly high performance and comprehensive services will be safe to operate in the future as well. By 2022, the global market for connected mobility is set to grow by almost 25 percent per year. In just a few years, cars will become an active part of the IoT and will be able to communicate with other modes of transportation as well as with the smart home. The car can also be seen as a personal assistant.
Automated driving will soon give drivers more time to dedicate to other tasks. For instance, drivers and passengers will be able to use time spent in the car to write e-mails, or entertain themselves with streamed music or videos. At MWC 2017, Bosch is presenting a concept car that shows how different spheres of life will be seamlessly interconnected in the future beyond the vehicle itself. Personalized communication between the car and its driver will also be expanded. The Bosch Forward ShowCar comprises a broad range of innovative technologies: The Driver
Monitoring Camera makes face recognition and personalization possible from the moment the driver is in the car.
For instance, the car sets the steering wheel, mirrors, interior temperature, and radio station according to the driver’s personal preferences. The concept car also includes the first ever gesture control with haptic feedback, that uses ultrasound sensors that sense whether the driver’s hand is in the correct place. Thanks to the touchscreen with haptic feedback, the buttons that appear on the touchscreen feel like real buttons. Drivers can thus keep their eyes on the road, and this improves safety. The Mirror Cam System is a camera-based solution that replaces both exterior mirrors. The video sensors can be integrated into the vehicle interior, and images are shown on displays close to the A-pillars on the right and left sides of the car.
Perfectly Keyless: the car key safe in your smartphone
More applications are being geared around the mobile phone, to make life easier and more personalized for users. Keyless entry is just another example of personalization: Perfectly Keyless is a user-centric vehicle access system that offers the driver full passive entry and passive start functionality using the smartphone as a digital car key. With the encrypted digital key on the phone, the vehicle can be unlocked and started without any interaction. When approaching the vehicle, the system will automatically identify the secret key on the smartphone and perform a distance measurement: within a specified range to the car (approximately two meters), the access is allowed. In a similar way, starting of the car is only permitted if Perfectly Keyless localizes the mobile device inside the car.
New functions are connecting the car to its environment, Bosch is working on the integration of smart services into the vehicle. When communicating with its surroundings, the car also takes on important tasks in the connected city. For instance, with community-based parking, the car is becoming a parking space locator. When driving down the road, the car detects gaps between parked cars with its on-board sensors. The data gathered is then transmitted to a digital street map. High-performance Bosch algorithms assess the plausibility of the data and,make forecasts on the parking spot situation. A cloud-based service that uses this data to create a real-time parking map, saves the driver a great deal of time and money, and also helps reduce stress, as well as traffic, when looking for a parking space. In cooperation with Mercedes-Benz, Bosch is currently testing the community-based parking concept in the city of Stuttgart and in further European
Cloud-based wrong-way driver warning
Traffic reports about wrong-way drivers are an all-too-familiar occurrence. Often, these incidents lead to critical situations, including serious accidents. At present, traffic is warned via the traffic message channel. Here the average time span between receipt of the notification and the broadcast alert is around three and a half to four minutes. However, it takes several minutes for warnings to be broadcasted over the radio, and so the endangered road users are often warned a few decisive minutes too late. The new Bosch cloud-based wrong-way driver warning alerts the driver and the endangered road users within seconds much faster and more precise. To detect wrong-way driving, the algorithm compares when a vehicle is approaching a highway entrance ramp or exit ramp and the vehicle’s actual movements with the permitted direction of travel. If the two sets of information clash, the wrong-way driver is alerted to their error. At the same time,
drivers of oncoming vehicles are also warned. The function relies on regular, anonymized reporting of each vehicle’s position on highway entrances to the cloud. The more connected vehicles there are, the denser the invisible safety net and the more road users can be alerted of wrong-way drivers. The wrong-way driver warning system is available as in-app functionality as a smartphone version. This app can be integrated as part of a Software Development Kit (SDK) into preexisting apps from other partner applications or into automobile manufacturers’ infotainment solutions.
Secure communication with all domains
The Central Gateway CGW is a hub to make connectivity possible. It ensures communication with all domains across all data buses. Bosch subsidiaries ETAS and ESCRYPT enable fast and secure updating of the vehicle software via the internet (SOTA/FOTA). While ESCRYPT experts provide holistic security solutions to protect against software manipulation and theft, ETAS embedded experts, with the appropriate architecture and software components, ensure that the updates can be safely and reliably executed – even after numerous updates. In addition, ETAS experts have further developed technologies for application in the automotive sector, which make updates up to seven times faster. Based on many years of automotive, safety and security experience, ETAS and ESCRYPT support vehicle manufacturers in the holistic view of functional safety and automotive cyber-security.
Two wheelers solutions for increased comfort and security
Bosch also focuses on the growing demand for smart connectivity solutions for motorcycles. The Integrated Connectivity Cluster (ICC) is a rider information system developed specifically for motorcycles. It features variable display sizes and resolutions and, thanks to the latest technology, is easy to read in all situations. “mySPIN for two wheelers” is a hardware-independent smartphone integration system for motorbikes, eScooters, eBikes and powersports vehicles. It works well with the ICC but can also run on other two wheeler displays. Already available for cars since 2014, this technology has now been adapted for two wheelers, and provides the perfect solution for increased comfort and safety, for example with information about traffic situations, or sharing route preferences with other bikers. mySPIN for two wheelers is compatible with iOS and Android smartphones. The Software Development Kit (SDK) for app developers to
integrate in their app is available via firstname.lastname@example.org.
The integrated eScooter system from Bosch shows the improved interaction between single components as connected system solution. It provides easy access to the most relevant and reliable information via HMI and/or smartphone app: e.g., battery status, speed, remaining mileage, and failure and diagnosis information. The ‘take me home’ function can calculate the optimal route, and the ‘‘anti-theft” function alerts the eScooter owner via smartphone if the scooter is being moved without authorization. Sharing as well as fleet management functionality is part of the integrated system too.
Smart sensor technology: New optical sensor solution for IoT applications
Tiny Bosch MEMS sensors (Microelectromechanical systems) can be found in most electronic devices. From, smartphones, gaming consoles and tablets, to many found in vehicle applications and safety systems and countless other devices. Although they are tiny, they are extremely effective, making systems far safer, energy efficient and more comfortable and easy to use. Bosch MEMS sensors are the “eyes and ears of millions” of electronic devices. At MWC 2017, Bosch presents its world’s first optical MEMS solution. It can be used for various applications in the Internet of Things (IoT), e.g. for the virtual control of home appliances, tablets and social robots.
Transport Data Logger provides transparency along the entire supply chain
With the Transport Data Logger (TDL) Bosch brings transparency into the entire supply chain. By being attached to the shipment of sensitive industrial goods, e.g. industrial machines, and recording relevant measured parameters such as temperature, humidity, tilt, and shock, the TDL makes the delivery process to be monitored and tracked. These measurements are then documented and visualized through an app for smartphones and tablets. Since the limits of each parameter can be individually configured, any parameter that exceeds its limit is traceable
thereby ensuring that each appropriate stage of the supply chain is held accountable. In the event that a parameter exceeds its limit, the TDL provides verifiable proof and reliable indication for possible primary and secondary damage.
In the case that no limits are exceeded, the TDL forms the evidence of a carefully conducted and failure-free transport chain. Thus, the TDL provides an added value for every logistical situation. It creates trust and peace of mind between relevant partners and provides important data for the optimization of logistics processes.