Category: Mobile

  • New CEVA Dragonfly platform designed for M2M systems

    CEVA Inc. has introduced the Dragonfly reference platform to accelerate the design of low-data-rate machine-to-machine (M2M) and Internet of Things (IoT) communication applications, including standalone wearables, smart grid, surveillance systems, asset tracking, remote monitoring systems, connected cars and smart utilities.

    The Dragonfly multifunction platform is enabled by the recently announced CEVA-XC5 and CEVA-XC8 digital signal processor (DSP) cores and accompanied by the hardware and software components required to rapidly design machine-type communications (MTC) systems.

    The platform supports GPS, Wi-Fi and other IoT-related communications standard set to be deployed for M2M communication as well as existing and emerging LTE MTC releases and LPWAN standards such as LoRa, SiGFox and Ingenu. LTE MTC — LTE Advanced for machine-type communications — significantly increases battery life, reduces device complexity, and enhances coverage for low data rate machine-type communications.

    At Mobile World Congress 2016, CEVA will demonstrate the Dragonfly reference platform running LTE Cat-0 and GPS concurrently on its silicon-based development platform together with test and measurement equipment from Keysight Technologies and a GNSS simulator from Galileo Satellite Navigation. Mobile World Congress takes place in Barcelona, Spain, Feb. 22-25. CEVA is located in Hall 6, Stand A50.

    Dragonfly offers system developers a flexible platform that allows for optimal hardware/software system partitioning, combining a low-power vector communication DSP with a range of hardware co-processors. Such partitioning enables the software flexibility essential for upgradability and long service life of typical M2M devices, while delivering the power efficiency required to support extended battery life of up to 10 years.

    As an example, for CEVA licensees developing M2M systems incorporating LTE Cat-1 or Cat-0 today, these systems can be easily upgraded to support LTE Cat-M or other future standards when available. The DSP can also be used to implement proprietary features for specific device use cases, such as seamless indoor and outdoor positioning concurrently with Wi-Fi 802.11n or LTE Cat-0, in a highly efficient manner.

    “Our Dragonfly reference platform brings together all of the essential hardware, software and system integration components required by customers developing low-power machine-type communication solutions, in a highly cost and power efficient manner,” said Michael Boukaya, vice president and general manager, Wireless Business Unit at CEVA. “We have leveraged our deep expertise in low-power baseband processing and complemented it with a range of software offerings to deliver a platform that is highly customizable and flexible for developing a broad range of IoT and M2M products, quickly and efficiently.”

    The Dragonfly reference platform includes the vector communications DSP and all the required co-processors and interfaces, together with software application layers and libraries, RTOS and drivers for MTC systems design. These hardware and software components are available for LTE MTC, Wi-Fi and GNSS standards. Also included is a 500-MHz silicon-based development system that includes all of these components together with RF front ends and a host interface.

  • 8 million GPS/wireless devices in use for fleet management

    Eight million GPS/wireless devices are used to manage fleet vehicles, trailers, construction equipment and mobile workers, according to a new report by C.J. Driscoll & Associates, a supplier of telematics market research and consulting services.

    According to the “2016-17 U.S. Mobile Resource Management Systems Market Study,” by 2019 this market will expand to more than 14 million units, and annual hardware and service revenues will grow to nearly $4.7 billion.

    Growth has been strong in the local service and delivery fleet market, where the use of commercial telematics solutions is expanding at a rate of 15-20 percent per year. However, the trucking sector’s rate of growth is projected to exceed the local fleet market because of the recently issued regulations requiring the use of Electronic Logging Devices (ELDs) by interstate trucking fleets for monitoring driver hours of service.

    While the largest GPS fleet management companies are becoming increasingly dominant, this has not discouraged new players from entering the market, some with considerable success. Overseas suppliers also continue to be drawn to the U.S. market due to its size and rate of growth.

    The 323-page market study provides in-depth information on each major MRM market segment, including the markets for vehicle-installed GPS fleet management solutions for local service and delivery fleets and long haul trucking fleets. The market for driver behavior management systems is also examined, along with the emerging market for managing mobile workers with GPS-equipped smartphones and tablets. In addition, the study covers the markets for monitoring mobile assets, such as fleet trailers and heavy equipment.

    The study assesses the current market penetration of MRM systems and services and projects annual subscriber and revenue growth through 2019. Detailed profiles are provided on more than 140 suppliers of MRM systems and services, including target markets, key features, installed base and pricing.

  • NextNav supports metropolitan beacon system for mobile

    The final specification for 3GPP Release 13 will include messaging support for Terrestrial Beacon System (TBS) location technologies, including the Metropolitan Beacon System (MBS).

    NextNav is deploying the MBS positioning technology across the U.S. to allow mobile phones and other devices to reliably determine their location in indoor and urban environments where GPS signals can’t be received.

    NextNav has adopted MBS for its nationwide deployment, which it calls an innovative “terrestrial constellation” bringing GNSS-like positioning performance to indoor and urban environments where satellite-based positioning is either unavailable or significantly degraded. By standardizing the core network information flow in 3GPP, support for MBS will become available across any Release 13-compliant LTE network platforms globally, similar to previously standardized GNSS systems such as GPS, GLONASS, BeiDou and Galileo satellite signals.

    NextNav’s system is complementary to GPS and delivers high precision latitude, longitude and “floor level” altitude in GPS-challenged areas such as indoors and urban locations across an entire metropolitan area. Unlike cellular positioning in LTE, MBS does not consume expensive wireless spectrum to do so.

    “We are gratified, after an especially intensive effort, to see 3GPP add support for Terrestrial Beacon Systems generically and for supporting the NextNav implementation of it — the Metropolitan Beacon System,” said Ganesh Pattabiraman, president of NextNav. “This speaks to the urgent market requirements for ubiquitous, high-quality indoor positioning. MBS availability as an international standard ensures that our location signals can be used in widely deployed LTE (long-term evolution) networks as part of an end-to-end system. It also opens the doors for multi-vendor systems, a critical consideration for our carrier customers and users worldwide.”

    The 3rd Generation Partnership Project (3GPP) unites seven telecommunications standard development organizations (ARIB, ATIS, CCSA, ETSI, TSDSI, TTA, TTC) and provides their members with a stable environment to produce the reports and specifications that define 3GPP technologies.

     

  • Microsemi offers security-hardened NTP timing platform

    Microsemi Corporation, a provider of semiconductor solutions differentiated by power, security, reliability and performance, today announced its SyncServer S6xx series of Network Time Protocol (NTP) servers.

    The new SyncServers provide a highly secure, accurate and flexible timing and frequency platform for synchronizing network elements and mission-critical electronics systems in enterprise information technology (IT) applications such as Internet protocol telephony and physical security, and government instrumentation applications such as satellite communications and defense operational infrastructure.

    “Microsemi’s new SyncServer series is a rock-solid enterprise level time server, interoperating easily with our Domain Time II software,” said Jeffry Dwight, president of Greyware Automation Products, the leading provider of time synchronization, management, and auditing software for Windows. “The new SyncServer raises the bar for accurate time synchronization with hardware-based time stamp support, which we found significantly reduced jitter and latency in time served, without losing accuracy. Installation was also much more flexible than any other GPS/GNSS unit we’ve tested. Anyone needing dependable high-quality NTP timestamps should consider Microsemi’s new SyncServer series.”

    The new series features SyncServer S600, a security-hardened NTP time server with Microsemi’s NTP Reflector technology for robust security, accuracy and reliability of network time services, and the SyncServer S650, a highly versatile timing and frequency system with the company’s FlexPort technology for multiport, user definable output signal configuration.

    The SyncServer S600 is designed for enterprise IT customers managing corporate networks in industries such as financial services and healthcare, while the SyncServer S650 is designed for electronics system engineers synchronizing mission-critical, system-level instruments.

    “Robust security, system agility and flexibility of time services are essential for modern IT networks,” said Sri Purisai, vice president of timing and synchronization business, at Microsemi. “Our innovative SyncServer S6xx series timing platform makes significant advances in the security hardening of timing ports, as well as adaptability to various network topologies and flexibility of timing output configuration. This next-generation offering from Microsemi provides our customers a simple migration path to meet future requirements for faster, more agile and scalable network operations.”

    According to the 2014 U.S. State of Cybercrime Survey, organizations use a gamut of security technologies to protect network operations. Time plays a vital role in determining the critical “when” of several key security technologies. Survey respondents cited intrusion detection (62 percent), log monitoring to identify intrusion attempts (49 percent) and security event analysis (40 percent) as technologies used for network protection. Without accurate time synchronization to UTC across the network, the effectiveness of these tools in securing the network becomes marginal.

    SyncServer S600

    Microsemi’s SyncServer S600 is a network time server with security-hardened NTP Reflector technology, supporting extremely high-capacity and ultra-accurate NTP server operations in a multiport, dedicated network time appliance. Easily integrated into existing, future and cloud network topologies, including software-defined networking (SDN), the SyncServer is designed for IT network administrators and architects who are heavily reliant upon server log files for network management.

    SyncServer S600 comes with four 1 Gigabit Ethernet (GbE) local area network (LAN) ports, each port equipped with hardware time stamping, multiplying the network configuration possibilities. All ports are equipped with high-resolution hardware time stamping, and the S600 is NTP and precision time protocol (PTP) ready in a multiport PTP configuration.

    A simple software update and license purchase/installation will be available in a future software release. Other benefits include interoperability, ease-of-use, extensive security choices and a modern web interface, Microsemi said.

    Additional features:

    • NTP hardware time stamping standard, with nanosecond accuracy
    • NTP reflector technology for improved security, NTP throughput and accuracy
    • Comprehensive suite of security protocols

    SyncServer S650

    As a superset of Microsemi’s SyncServer S600, the SyncServer S650 provides all the features of the SyncServer S600, as well as additional offerings. Leveraging the company’s FlexPort timing technology, it delivers flexibility in precise time and stable frequency synchronization in a price competitive commercial off-the-shelf (COTS) solution.

    FlexPort timing technology efficiently and cost-effectively adds innovative “any signal, any connector” technology through software configuration, eliminating the wasted space inherent with legacy-style fixed-signal modules with fixed-signal types.

    Specially designed for system and instrumentation engineers in the electrical, system, metrology, communications and defense markets looking to easily output a variety of accurate and stable time and frequency signal types in a cost-effective manner, the device provides network-based timing features with software upgrades to completely security-harden the system.

    The GPS referenced SyncServer S650 is built for modern electronic systems and networks that require synchronization performance adaptable to a wide range of applications. Microsemi’s FlexPort configurations eliminate the need for distribution chassis, saving time and costs, in addition to providing an easy-to-use system, Microsemi said. Other benefits include high accuracy and signal quality, as well as environmental design robustness.

    In addition to the features of the SyncServer S600, the SyncServer S650 has:

    • Clock accuracy typically better than 10 nanoseconds to universal time
    • Standard timing I/O card that meets most popular timing output requirements, eliminating the need to purchase multiple plug-in modules
    • FlexPort technology option for any signal, any connector flexibility.
  • Marvell’s NFC controller enables tiny antennas for mobile, IoT, wearables

    Marvell, a connectivity and semiconductor company, has launched its Near Field Communication (NFC) 88NF100 Controller with Active Load Modulation (ALM) to support the smallest antenna sizes critical to mobile, IoT, wearable and automotive applications.

    Adhering to the NFC Controller Interface (NCI) Technical Specification version 1.1, the 88NF100 provides an extended operating range and is extremely energy-efficient to enable extended battery life for power critical applications.

    The 88NF100’s ALM technology supports the smallest antenna sizes to enable OEMs to implement NFC capabilities into small form factor designs, such as for mobile, the Internet of Things (IoT), wearable and automotive applications. The controller has extremely low power operation in polling mode to provide increased battery life for power critical applications and three single-wire protocol (SWP) interfaces to secure element (eSE) devices, for for secure payments.

    The patented two-pin antenna interface supports a maximum distance of two meters between the chip and antenna, supporting devices where the antenna must be located far away from the chip, such as with automotive and printer applications, in addition to designs with tight space constraints, including smartphones and wearable devices.

    Seamlessly integrating with Marvell’s Wi-Fi, Bluetooth and ZigBee solutions, the 88NF100 is compliant with the NCI Technical Specification version 1.1 to leverage existing middleware and applications and supports GSMA, ISO and EMVCo industry standards.

    “As consumers demand smarter and more connected devices every year, manufacturers are increasingly faced with the challenge of incorporating advanced technology features into elegant and small form-factor designs. Marvell’s 88NF100 controller with ALM technology is designed to enable OEMs to incorporate advanced NFC technology into compact and energy-efficient designs with ultra-small antennas,” said Kevin Tang, senior director of marketing, Wireless Connectivity Business Unit at Marvell. “Marvell’s wireless technology enables the ultimate performance, battery life and operating range, making the 88NF100 ideal for NFC applications in Mobile payments, point of sale (POS) systems, Smart home connected devices, Smart watches and vehicles.”

    Key features of the Marvell 88NF100 include:

    • Low-power consumption.­ The 88NF100 supports all data rates up to 848 kbps and operates with a low polling current of 60uA, making it ideally suited for power critical applications.
    • ALM integration.­ The controller’s ALM technology supports smaller antennas; and allows placement of the antenna up to two meters from the 88NF100.
    • Advanced digital processing for reader mode. The 88NF100’s signal processing has been optimized for better performance, enabling better reading distance in peer-to-peer (P2P) modes.
    • Advanced low-battery operating mode. The controller can operate on a very low current from the battery, ensuring that mobile applications deliver the same performance level in card emulation (CE) mode when the phone is powered on or off.
    • Compact package with low pin count.­ The 88NF100 has embedded wafer level ball grid array (eWLB) 2.5 x 2.5 and a compact 4 x 4 quad-flat no-leads (QFN) package.
    • Local Interconnect Network (LIN) interface.  The LIN interface is designed to enable developers to build low cost NFC LIN nodes for the automotive industry and natively support the automotive LIN communication protocol.
  • u‑blox 8 provides GPS/GLONASS receiver platform for low-power devices

     

    u-blox has released the u‑blox 8 GPS/GLONASS receiver platform. It complements the u-blox GNSS platform portfolio by addressing power sensitive usage, whereas the existing u-blox M8 platform continues to serve applications where navigation performance and highest accuracy are paramount.

    u-blox 8 offers significant improvements, compared with its predecessor u-blox 7. The tracking sensitivity has been increased by 4 dBm, and is now -166 dBm.

    The enhanced odometer functionality, a new geofencing feature, and optimized preset power save modes can halve the power requirements for sport products. Free-of-charge AssistNow for boosting GNSS acquisition performance, which is available online, offline or as an autonomous service, has been improved. It also makes the new positioning platform ideal for all battery powered devices, especially wearables and sports tracking.

    “Nowadays many portable applications rely on a single coin battery; hence low power-spending is crucial,” said Uffe Pless, Product Marketing and Positioning, u‑blox. “u‑blox 8 has been developed for wearables and tracking applications, keeping in mind the need for low power consumption without compromising performance.”

    u‑blox 8 is pin-compatible with u‑blox 7. It will be available as a chip and as modules in several form factors. Customer samples of u‑blox 8 chips and modules will be available by Q2 2016.

  • CES 2016: Bosch Sensortec unveils intelligent accelerometers and high-performance gyroscopes

    Bosch Sensortec is unveiling new generations of intelligent accelerometers and high-performance gyroscopes at the 2016 International CES in Las Vegas.

    Aimed at smartphones, tablets and wearables, the new devices cover a wide range of requirements, from low-power consumption for always-on applications such as step counting, to high-performance optical image stabilization (OIS).

    Intelligent three-axis accelerometers — BMA422 and BMA455

    Today’s applications running on modern mobile devices place many demands on motion sensors. These sensors are required to continuously sense motion, such as for step counting operations, while at the same time delivering a high level of performance without compromising battery lifetime.

    To meet these challenges, the new sensors from Bosch Sensortec integrate embedded intelligence functionality into standalone accelerometers. Adding intelligent features to an accelerometer enables innovative applications, while minimizing power consumption by eliminating the need to wake up an application processor or an additional discrete sensor hub. Overall system power management and user experience can be improved by the accelerometer detecting and processing motions such as glance, pick-up and tilt.

    Current consumption of the new accelerometers is kept very low to extend battery life. The integrated Android 6.0 “Marshmallow” features minimize programming effort for customers. Each device delivers outstanding accelerometer performance for low offset, low temperature coefficient offset (TCO) and low noise levels, the company said.

    Two new accelerometers are being launched: the BMA422 “all-rounder” is suitable for standard applications, and the BMA455 provides high performance for gaming and immersive activity tracking. In addition, the high level of performance enables demanding applications covering augmented reality, virtual reality, image stabilization and industrial measurement applications such as spirit leveling and inclination measurement.

    High-performance gyroscopes — BMG250 and BMG280

    Mobile devices require gyroscopes for many applications, including gaming, augmented reality, virtual reality and OIS. To provide the necessary performance, Bosch Sensortec’s new gyroscopes combine the most important parameters in a single device: low noise, low TCO and high bias stability.

    Although delivering high performance, they do both feature the lowest power consumption of any standalone gyroscope in the market, thus helping to extend battery lifetime in mobile devices.

    Today’s announcement includes two three-axis gyroscopes: the BMG250 provides low noise, low TCO and high bias stability, while the BMG280 delivers ultra-low noise optimized for OIS and includes a secondary interface for OIS, making it fit for use in camera modules. The BMG280’s secondary interface can be used in parallel with the primary user application interface, for example for simultaneous panorama creation and OIS.

    Packages and availability

    The new devices are provided in small packages. The BMA422 measures 2.0 x 2.0 x 0.95 mm³, while the BMA455 is 2.0 x 2.0 x 0.65 mm³. The BMG250 and BMG280 gyroscopes both measure 3.0 x 2.5 x 0.83 mm³.

    Samples of the all sensors are available now, with mass production of the gyroscopes to commence in Q1 2016 and mass production of the accelerometers starting in mid-2016. For pricing, contact Bosch Sensortec.

  • Bluvision demonstrates indoor location solution at CES 2016

    Bluvision, a real-time location services (RTLS) provider, will be demonstrating its RTLS solution along with Texas Instruments (TI) at CES 2016.

    Bluvision’s location algorithms “continue to redefine how technology can be used for indoor location,” the company stated in a news release. Its RTLS solution uses Bluetooth low-energy and Wi-Fi technology to determine specific positioning, leveraging multiple techniques, including smart machine learning algorithms for accuracy.

    The combination of Bluetooth Smart, Wi-Fi and sophisticated algorithms on the cloud allows tracking and monitoring of assets — equipment or people — without the need for a smartphone application and uses minimum hardware that is fast and easy to implement, Bluvision said.

    Bluvision’s RTLS solution is accurate down to three feet even in harsh conditions. It can be deployed in a large area within hours. The solution supports creating multiple alerts and policies, including creating multiple virtual geofences that trigger alerts when entering or leaving pre-defined areas.

    Bluvision will demonstrate the RTLS solution in the TI Village (#N115-N118) at CES 2016, using TI’s SimpleLink Bluetooth Smart CC2640 wireless microcontroller (MCU).

    “Our LBS (location-based service) solution is disruptive,” said Jimmy Buchheim, CEO of Bluvision. “Using TI’s SimpleLink CC2640 wireless MCUs with built-in SDR (software-defined radio) and the combination of our talented data scientists, advanced algorithms team and cloud team, allows us to revolutionize indoor location, achieving what is considered impossible accuracy for Bluetooth-based technology.”

    For more information on the demo or Bluvision’s RTLS solution, contact Subhashree Sukhu.

  • Antenova’s latest modules add GNSS to consumer devices and wearables

    Antenova Ltd., manufacturer of antennas and RF antenna modules for machine-to-machine (M2M) and the Internet of Things, has released two new modules for GPS and GNSS. Both provide an easy drop-in receiver solution — a way to add a location capability to very small consumer devices.

    The two modules are similar, both measuring 9.0 x 9.0 x 1.8 millimeters, with low current consumption, making them suitable for smaller portable devices such as smartwatches, navigation devices, OBD II modules, asset tracking, personal safety, sports cameras and equipment. They are based on a MediaTek processor.

    The M10578-A2 module operates with GPS, with a 1-5 Hz update rate, and the M10578-A3 operates with GPS, GLONASS, BeiDou and Galileo with an update rate of 1-10 Hz.

    Antenova has added two features to enhance performance of the modules. An internal self-generated orbit prediction uses two GNSS systems simultaneously to give a faster time to fix, and a second high-quality low noise amplifier (LNA) boosts low-powered satellite signals.

    The new M10578 modules are the latest in Antenova’s Radionova series of fully optimized RF modules for wireless M2M and embedded devices. Both modules are pin compatible, offering easy integration and upgrade from GPS to GNSS; for the antenna function, Antenova offers the small Sinica SR4G008 GNSS antenna.

    The new modules are built on high-grade FR4 substrates with a high density, multi-layered design that places the critical RF functions in the best position for location finding and performance.

    The M10578-A2 and M10578-A3 are available to order now.

  • CES 2016: 3Plus launches smartwatch, connected wearables

    3Plus, a developer and manufacturer of smart wearable devices, will introduce four new connected products at CES 2016. The huge Consumer Electronics Show (CES) will be held in Las Vegas Jan. 6—9. The new 3Plus wearables line will be on display at CES 2016 in Tech West Sands Expo Booth  no. 72745, and the ShowStoppers press event on Jan. 6.

    From basic activity trackers to advanced smartwatches, all of the new 3Plus wearables track and record daily activity and sleep. They also use Bluetooth 4.0 to provide smartphone notifications such as calls, e-mails and text messages. They are compatible with both iOS and Android platforms and have corresponding mobile apps.

    “Today, a wristwatch is more than just a means to know what time it is and the day’s date,” remarked Jerry Galya, 3Plus vice president of sales. “Digital technology has taken wristwatches in a whole new direction and 3Plus is right at the forefront with many innovative technologies. Our newest wearables are available at a variety of affordable price points depending on what features you are interested in. From the most basic smartphone notifications and fitness tracking, to advanced heart rate monitoring and call answering, 3Plus offers it all.”

    The following 3Plus IoT wearables products will be introduced at CES 2016.

    3Plus Lite: This connected fitness wearable tracks steps taken, calories burned, distance traveled, duration of sleep and sleep cycles. It has daily life reminders such as when to wake up or take medicine. The 3Plus Lite features a power-efficient OLED display and has an IP67 rating, meaning it is totally protected against dust and water immersion up to three feet.

    3Plus Swipe HR: The 3Plus Swipe HR combines smartwatch with an activity tracker. It tracks steps, distance, and calories burned. It also keeps track of daily meals via MyFitnessPal, as well as sleep quality, including periods of deep sleep and restlessness. Other features include a 1.1-inch touchscreen display; heart-rate range alert; and automatic data sync to a smartphone without plugging in or pushing buttons, providing real-time access on a mobile app and notifications on the wrist.

    3Plus Touch Smartwatch: Activity tracking includes steps taken, calories burned, distance traveled, heart rate, quality of sleep, and sleep cycles. It even reminds the wearer when to take their medicine or when to eat. The OLED touchscreen display shows the time and date, and smartphone notifications including the name or number of incoming calls, with a built-in microphone for direct answering. Other features include a lightweight lithium-polymer battery with a two-week standby time.

    3Plus Time: The look of a traditional timepiece is coupled with digital capabilities. The dial of the 3Plus Time smartwatch measures time with big, bold Roman numeral hours, old-school hour and minute hands, and a digital OLED display for text, call and other smartphone notifications. Tracking activities include steps taken, calories burned, distance traveled, duration of sleep and deep-sleep time. It is available with a choice of a leather or stainless steel band.

  • German automakers complete HERE acquisition

    Kevin Dennehy
    Kevin Dennehy

    In what was 2015’s largest location-industry deal, three German luxury auto manufacturers completed the purchase of HERE. But that wasn’t the only recent acquisition as location-based services provider TeleCommunication Systems, or TCS, was bought by Comtech Telecommunication Corp. Both deals indicate the growing, and continued growth, of location services going forward into 2016.

    Three German automakers are now in the location business following the finalization of a $2.8 billion deal to buy Nokia’s HERE digital mapping company last week. Audi, BMW and Daimler are now equal owners of HERE following quick regulatory approval.

    While some say there was much Nokia-driven hype about who was bidding on HERE, including Uber and Baidu, ultimately others breathed a sigh of relief that automotive companies, not Google, bought the digital mapping pioneer.

    The deal, which was originally announced in early August, shows the continued value of accurate maps to the automotive industry as it transitions for connected to autonomous vehicles. In addition, the number of big suitors interested in HERE shows the rise in the potential and real market for location-based services in both smartphones and connected vehicles.

    Many of the early suitors balked at HERE’s early price tag, estimated to be more than $4 billion. Uber, which some felt would be a good match for HERE because of their autonomous vehicle intentions, decided to go in another direction, buying mapping company deCarta.

    While it’s too early to analyze the consequences of the deal, some analysts say it will be interesting to see if the new owners keep the mapping giant neutral to not alienate future clients.

    It remains to be seen whether its competitor, TomTom, which also has been talked about as an acquisition target, should stay as an independent company or form its own consortium.

    Nokia purchased HERE, the former Navteq, for $8 billion in 2007. The sale of HERE is part of Nokia’s transformation as it completes its $16.6 billion acquisition of Alcatel-Lucent, which is expected to close early next year.

    In another big deal since our last column, Annapolis, Md.-based TeleCommunication Systems was acquired by Comtech Telecommunication Corp. for $430.8 million deal. The deal is expected to close in March 2016.

    TCS was one of the first companies to do it all in the consumer location space, buying entities in automotive navigation and also making inroads in the fleet management and indoor positioning/9-1-1 space. The company most recently was developing location technology for mobile, or m-health markets.

    Cyber Security Big Connected Vehicle Concern in 2015

    As we review the past year, one of the biggest connected vehicle trends in 2015 was when cyber security became real for the automakers, said Jon Allen, Booz Allen Commercial Solutions principal.

    “Just as automakers are increasingly demonstrating the power of automation, their momentum is challenged by researchers showing they really can hack into vehicles. While there are engineering challenges ahead to realize the full potential of autonomy, the priority in automotive is to protect the trust of customers and regulators as autonomous capabilities are further developed,” he said. “That puts cyber at the top of the agenda.”

    2016, OEMs will need to further embrace a security mindset, Allen said. “These [cyber risk] issues are solved by designing, engineering and testing your vehicle to meet defined standards. But cyber risk has an outside variable you can’t control: cyber threat actors. This means you’re not just engineering a solution — you’re fighting an adversary,” he said.

    Allen said that automakers need to identify a single leader to champion vehicle cyber security, supporting them up with an integrated, cross-functional team. “That includes experts from safety, privacy, IT, legal, engineering, manufacturing, customer service and supply chain,” he said.

    Autonomous vehicles tout a safety record that far surpasses today’s cars, but a cyber incident has potential to reverse that claim, Allen said. The “doomsday” scenario is attacking multiple vehicles over the air to “brick” multiple platforms, but this may be an unlikely near-term scenario, he said.

    “The near-term attacks will be motivated by money. That’s why many of the largest hacks were designed to exploit personal and financial information,” Allen said.

    At a Colorado Space Roundup meeting in Denver last week, Thad Allen, former Coast Guard commandant and now executive vice president at Booz Allen Hamilton, said that there won’t be a “cyber Pearl Harbor” as the government and civilian entities should have had plenty of warning it was coming. Allen, who was in Denver working on the GPS Operational Control System, or OCX, also said that it would be catastrophic if the GPS infrastructure was compromised.

    “If someone does something to disrupt GPS, it will affect everyone,” said Allen, who oversaw the Hurricane Katrina and Deepwater Horizon oil spill operations.

    Indoor Positioning’s Big Story in 2015: Consumer Appliances?

    While there were several significant tests and infrastructure rollouts, at least one analyst says the rise of indoor positioning in consumer appliances was huge. Bruce Krulwich, Grizzly Analytics founder, said that such companies as Move ‘n See are putting location chips into electronic devices.

    Move ‘n See also has a camera robot, called Pixio, which follows a person moving around a sports field or other indoor site. “What’s huge about this is not the product itself — it’s hard to tell whether it will appeal to the masses or only a niche market–but I believe that it’s the first in a new trend of electronic products that enhance their capabilities by incorporating indoor location technology,” he said.

    In other location news:

    • CalAmp Corp. said it made a $113 million offer for LoJack Corp., which is a pioneer in car theft-recovery using location technology. According to published reports, CalAmp has made three cash offers for Lojack in the past 14 months. LoJack’s car recovery systems use location technology, which seems to be a great fit for CalAmp, which offers fleet tracking software.

    It’s been a good run. After eight-and-a-half years, this is my last Wireless LBS Insider column. Many thanks to Alan Cameron and Tracy Cozzens, both seasoned journalists, who steered me on the right course over the years. I will be at CES in a freelance role next month and will continue to operate my autonomous vehicle conference, Driverless.

  • What to expect from the Consumer Electronics Show

    What to expect from the Consumer Electronics Show

    A scene from the hectic and high-tech show floor of CES 2015.
    A scene from the hectic and high-tech show floor of CES 2015. (Photo: CES)

    It won’t be long until the January Consumer Electronics Show (CES) overwhelms us, so I want to ensure that we don’t overlook innovation occurring now, both in mapping and in automated vehicle technology. And if you are attending the show or following its news, I will provide you with a heads-up that will help orient you.

    what3words. GPS has revolutionized mapping and burst open a host of technologies. We have lived through a transformative age, but today, new features are mostly iterative, just a bit better than last year. A UK startup, what3words, is providing an intriguing perspective on geolocation, mapping the world by words instead of long number strings of location coordinates.

    what3words has divided the world into 57 trillion nine-meter square tiles, each randomly assigned a unique string of three words and, yes, that’s a big vocabulary. For instance, Strawberry-Cart-Walk might be the name for a patch of soil in Africa, and Flower-Hay-Pen might designate a square on the sidewalk in Manhattan. The words have no context, but provide the advantage of being easier to remember, communicate (particularly vocally) and may be less prone to error.

    The advantage of worded geolocations is more apparent in places that are mapped poorly, and have inadequate addressing or limited technology. This describes most of the world, where water wells in remote places can’t be found and aid has trouble reaching people that lack a way to communicate their location. Even in well-mapped areas, worded geo-location can be helpful by identifying specific locations at a traditional address, such as goods and vehicle entrances as well as front doors. How many times are we told by a nav system that we have arrived at our destination when the entrance or driveway isn’t in sight? what3words has recently signed a deal with Esri and has received a Series A investment round.

    Google’s Latest Patents. The race to owning the connected car has been a marathon, and the smartest companies have focused on developing intellectual property that can be patented. Google is in the lead, and most recently the company was granted a patent regarding the interaction between a vehicle and a pedestrian. Self-driving vehicles by necessity are overly cautious or may overreact to road “obstacles.” They are disadvantaged by not being able to interact like a human driver, who might nod or frown or gesture to a pedestrian to indicate intent. Google was recently granted a patent for automated vehicles to communicate intent with a pedestrian, via a physical signaling device, an electronic sign or lights, or a speaker for providing audible notifications. Signage on the vehicle might illuminate to indicate that the vehicle will stop at a crosswalk and that it is safe for the walker to proceed.

    Innovations Unveiled. The CES Innovation Awards are given prior to the show. Bosch is a 2016 winner for a new in-vehicle touch screen that provides haptic control. The screen recognizes the pressure applied by fingers and activates functions accordingly. Having recently announced that it is entering the auto component market, expect different offerings from Samsung. Anticipation is growing that Faraday Future, a new automaker planning to go head-to-head with Tesla, will unveil a concept car.

    Innovation will abound at the Consumer Electronic Show in Las Vegas. Look for the most exciting technology announcements in automotive and virtual reality technology. CES in expanding automotive exhibit space by 25 percent to fit 100 automotive technology companies and nine automakers. Virtual reality and robotics will both have a much stronger presence this year. In addition, the evolution of smart homes, wearables, drones and mobile health technology will be interesting to watch. And if you want see the next trendsetters, check out the curated area of 500 startups. That is the real barometer of the future.

    If you are interested in the connected vehicle, attend the conference Driverless, the Business of Autonomous Vehicles, which will be held March 22-23, 2016, near the San Francisco Airport.

    This is the last issue of Wireless LBS Insider. For six years I have been the editor of GPS World’s newsletters Wireless Pulse and then Wireless LBS Insider, to provide perspective on location-based trends. My coverage started with the beginnings of E-911, telematics and location-based services (LBS) and expanded into connected vehicles, location-based advertising, and M2M.

    As an industry insider, I have a consulting practice devoted to helping companies shape new offerings, research new markets, take the temperature of customers, develop new business and communicate the value of their offerings. Let’s keep in touch. Email me at [email protected]. And if you happen to be at CES, we can meet and talk technology.