Category: Mobile

  • Verizon Telematics’ Work on Mercedes mbrace Marks New Standard for Connected Cars

    Mike Peterson
    Mike Peterson

    VP says company remains “bullish”on in-car Wi-Fi, sees need for both embedded, bring-your-own-device solutions

     

    Mercedes-Benz has been in the news in the past month for offering connected car service as standard for five years on all new vehicles, one of the longest multi-year offers yet. But it isn’t just big news for Mercedes; it’s also a testament to Verizon’s continued investment in connected car technology.

    Verizon is one of the longest tenured telematics providers in the U.S. market and has worked with Mercedes-Benz since 2009, said Mike Peterson, vice president and general manager of OEM business for Verizon Telematics, in an exclusive interview with GPS World.

    “Mbrace has the widest breadth of services, including remote connection for door lock/unlock, remote vehicle start, a feature that consumers have been asking for for a long time as evidenced by after-market industry,” Peterson said. “We’re also delivering diagnostics data to dealers and adding the ability to access certain apps on the head unit without the user tethering their phone — that’s the big new thing.”

    Verizon is exhibiting mbrace at CTIA Super Mobility 2015 in Las Vegas this week. mbrace services include navigation, location apps, remote safety and security features, and advanced travel assistance.

    Embedded connectivity is a more expensive alternative to the bring-your-own-device (BYOD) model. Despite the embedded vs. BYOD debate in the industry at-large, Peterson doesn’t see one way as better than the other.

    “Part of it is always demographics. With Mercedes-Benz customers, while the majority are connected with smartphones, the simplicity of having to use a radio head unit as opposed to their phones will be the right experience to create for premium customers,” Peterson explained. “Other price sensitive brands will continue to see BYOD as the way to go.”

    Peterson admits the decision to equip all vehicles with the service is in part designed to prime customers so that the technology becomes a must-have. But, he adds, that the connected car creates a relationship between the manufacturer and consumer that benefits both, particularly with regard to safety.

    While Verizon is the telematics provider to six OEMs in the U.S., including Volkswagon and Hyundai, Peterson doesn’t take the credit for decisions like the one Mercedes made when extending mbrace’s reach.

    “I would call it a partnership heavily influenced by automakers. At the end of the day, the automaker decides what equipment to put into their vehicles. We provide all service, but they very much protect what goes into their car.”

    One feature of mbrace that Peterson calls “a big deal” is the ability to turn your vehicle into a Wi-Fi hotspot. It’s a feature that has gotten caught between customer demands and regulator concerns that those increased demands will lead to spectrum-sharing that hampers the progress of vehicle-to-vehicle (V2V) communications.

    “We are quite bullish on Wi-Fi in the car. You’re already equipping the vehicle with a connected device that’s Wi-Fi capable,” Peterson said. “We’ve done considerable research, and it’s all come back very positive.”

  • Kika M2M Launches Theft AL3RT for Polaris eBikes

    Kika M2M Launches Theft AL3RT for Polaris eBikes

    The AL3RT asset tracker is designed for the power sports industry and runs on the AT&T network.
    The AL3RT asset tracker is designed for the power sports industry and runs on the AT&T network.

    Kika Enterprises announced at CTIA Super Mobility this week that its AL3RT asset protection unit will be available as an accessory for Polaris electric bikes worldwide, beginning January 2016. The AL3RT trackers will be sold at sports dealerships in the United States.

    Powered by AT&T, AL3RT is a stand-alone, customizable asset locator and fleet management tool designed for theft protection of on- and off-road vehicles, motorcycles, snowmobiles and personal watercraft.

    AL3RT customer benefits include: real-time location alerts, anti-theft alerts, accident panic alerts, historical location data, coverage in locations around the globe, long battery life (up to seven days) and a water- and dust-proof housing. The product line will also include several accessories, such as a multi-use cradle for easy mounting and Bluetooth multi-sensors that can be programmed individually.

    Supported by GPS, GSM, Wi-Fi and Bluetooth technologies, users can use their AL3RT smartphone app to locate their asset, as well as arm and disarm sensors and configure geofences virtually anywhere in the world. AL3RT can be configured to send individual or group alerts via email or SMS.

    “We are excited about the launch of the AL3RT, because it represents the first true anti-theft alert solution designed for the power sports industry,” commented Ricardo Salguero, president of Kika M2M. “The AL3RT offers superior features, reliability and AT&T connectivity, making it a tremendous extension of our growing line of customizable M2M solutions. This addition truly positions Kika M2M uniquely in the market with a broad range of proprietary M2M solutions for the power sports industry.”

    Kika M2M will showcase the AL3RT at CTIA Super Mobility, taking place Sept. 9-11 in Las Vegas, as a part of AT&T’s Booth #3724.

  • TESSCO Introduces Fleet Management Solution at CTIA Super Mobility

    TESSCO Technologies is introducing a low-cost investment vehicle tracking, monitoring and control solution at CTIA Super Mobility, being held Sept. 9-11 in Las Vegas. TESSCO is a provider of the product and value-chain solutions required to build, use and maintain wireless systems. The company is displaying the fleet management solution at booth 5932.

    “Spending in the U.S. logistics and transportation industry totaled $1.33 trillion in 2012. However, fleet management systems have remained largely disjointed and costly for smaller fleets. Our Fleet Management Solution provides choice, convenience, best-in-class products and a total source for all of the elements needed to deploy a management solution faster and at the lowest cost investment,” said Steven Tom, TESSCO VP of Analytics, Innovation & Learning. “We provide the expertise and service built on our deep experience in wireless networks and in-vehicle communications. We deliver the end-to-end products and services including sensors, telematics, vehicle mounts and internet connectivity.”

    Join Steven Tom for his presentation “The Road Ahead: The Future of Fleet Management and Telematics” on the Networked Society & Startup Stage at 2:30 p.m. on Wednesday, Sept. 9. He will share details about the new product offering as well as look ahead to the future of fleet management.

  • Live from CTIA Super Mobility 2015

    Live from CTIA Super Mobility 2015

    GPS World reports live from CTIA Super Mobility 2015 in Las Vegas Sept. 8-11, organized by CTIA—The Wireless Association. The Western Hemisphere’s largest mobile innovation summit brings together 35,000 professionals who work in the mobile technology industry, including leaders in wireless, indoor location, connected car and Internet of Things (IoT), among many others.

    GPS World digital editor Bethany Chambers and Wireless editor Janice Partyka will be reporting all week here on GPSWorld.com, on Facebook and on Twitter @GPSWorld. This convention is far from conventional in its use of multimedia to fuel the excitement surrounding all things mobile; the show has an official DJ in Los Angeles-based Bella Foxx and an emcee in Saturday Night Live’s Michael Che. Keynotes also follow the multimedia theme this year, with DreamWorks CEO & cofounder Jeffrey Katzenberg, Wikipedia founder Michael Wales and iHeartMedia Chairman Bob Pittman scheduled to appear.

    News

    CTIA 2015 Recap: What Mattered Most Analysis by Wireless editor Janice Partyka (9/14/15)

    Azuga Founder Rani Brings Gamification to Fleet Management (9/14/15)

    Q&A with Nick Papadopoulos of u-blox (9/14/15)

    Survey Market Key to Maxtena’s Growth (9/13/15)

    TCS Makes Strong Play in Indoor Location Market with Loctronix Acquisition (9/11/15)

    PodsystemM2M Announces Partnership Program at CTIA (9/11/15)

    Keynote Day 2: AT&T Announces New Personal Security App, Connected Car News (9/10/15)

    TeleCommunication Systems Introduces Network Functions Virtualization (9/10/15)

    PCTEST Expands Antenna Testing Capabilities with Rohde & Schwarz (9/10/15)

    Verizon Telematics Work on Mercedes mbrace Marks New Standard for Connected Cars (9/9/15)

    Kika M2M Launches Theft AL3RT for Polaris eBikes (9/9/15)

    Keynote Day 1: FCC Chief ‘Confident’ Net Neutrality Rules Will Stand (9/9/15)

    TESSCO Introduces Fleet Management Solution at CTIA Super Mobility (9/9/15)

    Antenova Shows GNSS Antenna Integration for Telematics at CTIA (9/8/15)

    SNL Comedian Michael Che to Speak at CTIA Super Mobility 2015 (8/26/15)

     

    Photos

    (Photos by Bethany Chambers)

    Video

     

    Introducing the Taoglas Storm Antenna

    GPS World talks to Taoglas VP of North American Sales Tim Dolan on the show floor in Las Vegas about the Storm Antenna. He explains what makes it unique to the market–and what comes next.

    VirtuMedix: e-Health Platform Leveraging TCS Verticals 

    TeleCommunication Systems Inc. Senior Vice President of Commercial Solutions Jay Whitehurst introduces VirtuMedix at CTIA Super Mobility 2015. The telemedicine solution utilizes location-based services to connect patients with clinicians in their area.

    Sierra Wireless: Fleet Tracking Solutions In the Google Cloud

    Olivier Pauzet, vice president of marketing and market strategy at Sierra Wireless, details AirVantage connectivity services for fleet tracking and the recent addition of Google cloud integration.

    What’s Launching at CTIA from Queclink

    Jorge Pineda, vice president of sales for Queclink Wireless Solutions, shares information on the company’s U.S. and international sales plans for 2015 and beyond, with a focus on fleet tracking and global LTE expansion.

    Introducing Parsec Technologies’ LTE/GPS Antenna, Now In Watches

    Parsec Technologies CEO Michael Neenan introduces the company’s LTE/GPS antenna. The antenna, which you can find out more about at parsec-t.com, is already in production and available for sale, and Neenan previews how the antenna will be used further in a watch coming out later this year. Find out more about the Texas-based company’s antenna, touted for its flexibility and interoperability.

    Aeris Demonstrates IoT Solutions

    Janet Jaiswal, vice president of enterprise marketing, and Gurinder Dhillon, senior director of Internet of Things (IoT) platforms and analytics, demonstrate how AerCloud and AerVoyance work together to enable rapid development, deployment and monitoring of IoT solutions.

    What Makes Rohde & Schwarz OTA Testing Different

    Rohde & Schwarz systems engineer Dan Perkins demonstrates their testing solutions and explains how they save customers “quite a bit of money.”

    Telit Showcases Dead Reckoning Solutions

    Telit’s GNSS sales director Jim Daniels overviews the latest innovations from the wireless module company.

  • Antenova Shows GNSS Antenna Integration for Telematics at CTIA

    Antenova Shows GNSS Antenna Integration for Telematics at CTIA

    The Antenova ODB fully assembled.
    The Antenova ODB (on-board devices) design fully assembled.

    Antenova Ltd., manufacturer of antennas and RF antenna modules for M2M and the Internet of Things, has built a model design for on-board devices (OBD) and vehicle telematics, which the company will be showing at CTIA Supermobility 2015.

    The OBD design uses three new antennas inside an OBD housing to link to GNSS satellite, Bluetooth and a terrestrial network, while obtaining optimum performance from all three antennas simultaneously. The design also features a new small GNSS RF module to fix location, which Antenova is showing for the first time.

    Antenova is using the latest antennas from it product ranges in the OBD design:

    • the Armata 3G FPC antenna for penta-band frequencies which operates at 824-960 MHz and 1710-2170 MHz
    • a new GNSS antenna named Bentoni operating at 1559-1609 MHZ,
    • the tiny Weii PCB-mounted antenna, which provides a Bluetooth connection at 2.4GHZ.

    All three are new antennas Antenova released this year.

    The new GPS/GNSS module (Antenova part number M10578) is a complete receiver that provides accurate location tracking for OBDs. It uses the latest MediaTek chipset with an additional LNA to give added performance when mounted under dashboards and out of line of sight with the sky.

    Antenova’s product designers recently introduced the concept of “Design For Integration” (DFI), which considers how the RF antenna will operate when it is embedded with a manufacturer’s product. Antenova’s antennas are always used within a customer’s design, so they are designed to provide superior RF performance from within the device, and to make the integration of the RF elements easier for the designer. In addition to this, Antenova provides its customers with technical support during the design, integration and testing phases.

    “We are demonstrating how a design for an OBD can give great performance, even when new antennas are added to an existing design,” explained Colin Newman, Antenova’s managing director. “OBD devices are growing fast in popularity, and the design of the RF components is critical to the overall performance of a device. In particular, Antenova’s engineers have invested many years in designing antennas that work effectively in very small spaces, whilst maintaining the efficiency of the antenna.”

    Antenova offers a range of antennas for Bluetooth, ZigBee, Wi-Fi, ISM, 802.11, 3G, GSM, GPRS, Edge, UMTS, WCDMA, LTE, GLONASS, BeiDou and Gallileo.

  • Telit IoT Platform Enables CelloTrack Nano System for Tracking

    Telit, a global enabler of the Internet of Things (IoT), today announced that Cellocator, a Pointer Telocation division, has selected the Telit IoT Platform as the underlying IoT Cloud infrastructure for its new CelloTrack Nano system. The platform, powered by deviceWISE, automatically performs all the critical connection, management and integration functions to simplify deployments of the Nano system across markets and industries worldwide.

    The CelloTrack Nano system enables real-time status monitoring of goods in transit. That includes location and a variety of critical operational sensing of the cargo or asset in real time, using a portable hub and a short range Wireless Sensor Network (WSN). The sensors monitoring capabilities include temperature, humidity, light, pressure, impact, movement, tampering and sound. It ensures continuous recording, enables event-triggered logic and “management by exceptions” through flexible programming of business rules to eliminate supply chain mistakes, avoid delays or damages and reduce insurance expenses.

    “We see high demand for the CelloTrack Nano in our traditional markets and count on Telit’s platform to bring us to the new IoT market,” said Joshua Rozanski, VP sales & marketing, Pointer Telocation. “By using the scalable, comprehensive Telit IoT Platform, Pointer has been able to concentrate on the rapid creation of a compelling, market-driven end-to-end solution.”

    “Pointer has been a valued customer of Telit’s modules for almost a decade and we are pleased that they have now also selected the Telit IoT Platform as the go-to-market technology solution for their newly announcement Nano system,” said Gideon Rogovsky, SVP of Sales and Marketing, Telit IoT Platforms. “The deviceWISE Ready certification offers CelloTrack Nano instant exposure across our thriving deviceWISE ecosystem and opens instant opportunities with our global network of business partners and customers.”

    The Telit IoT Platform connects “things” to “apps” — integrating any devices, production assets and remote sensors with web-based and mobile apps and enterprise systems. The platform reduces risk, time-to-market, complexity and cost of deploying solutions for monitoring and control, industrial automation, asset tracking and field service operations across all industries and market segments around the world. The Telit IoT Platform offers extensive developer resources and support and a free trial can be accessed here.

  • Telit’s IoT Portal Combines Connectivity Management with App Enabling

    Telit, a global enabler of the Internet of Things (IoT), has announced a new release of the Telit IoT Portal. The portal consolidates a suite of advanced connectivity management functions with the company’s deviceWISE IoT Application Enablement Platform.

    The service enables companies to deploy, configure and manage end-to-end IoT deployments from a single, cloud-based portal, Telit said. The portal is designed to make it easy to “connect thing to apps” by seamlessly integrating any device, production asset or remote sensor with web-based and mobile apps and enterprise systems, across any wireless network.

    The newly added connectivity management addresses all aspects of mobile communication provisioning, including seamless integration with Mobile Network Operators (MNO) and Connected Device Platforms (CDP).  Users can activate or de-activate devices, manage SIM cards, analyze connection quality, and set all provisioning and data plan parameters. This platform function is especially useful in preventing data overage and overall data cost management.  The advanced CDP integration feature aggregates federated data across multiple wireless networks — a valuable capability when operating IoT deployments in different countries and regions around the world.

    From the same portal, users have continuous access to all the comprehensive functions of the deviceWISE IoT Platform, including device onboarding, edge-intelligence, data collection, data transport, data storage, data delivery and application integration. Developers can connect, collect and control anything with a single, standardized API set that is common across device integration, connectivity management and application development.

    “The developer-friendly Telit IoT Portal provides instant and full access to the mature and comprehensive features and all the necessary tools and resources for your IoT project,” said Alon Segal, CTO, Telit IoT Services.  “No upfront investment is required and companies can focus on developing compelling applications that help transform their business, not the engineering of underlying technology infrastructure.”

    The Telit IoT Portal reduces risk, time-to-market, complexity and cost of deploying solutions for monitoring and control, industrial automation, asset tracking and field service operations across all industries and market segments around the world.  Additionally, customers can enjoy professional maintenance and support and ongoing upgrades to new features and capabilities. Access a free trial of the Telit IoT Portal.

    The new release of the Telit IoT Portal will be featured at Telit DevCon, Sept. 8 in Las Vegas, and live demonstrations of will be held at CTIA Super Mobility 2015, booth #5032, which takes place Sept. 9-11 in Las Vegas. Those attending Telit DevCon can learn how industry leaders use the IoT to create new markets, transform their business and achieve measurable return on investment.

  • The economic benefits of GPS

    The economic benefits of GPS

    Table 1. Preliminary 2013 U.S. GPS economic benefit estimates. (Chart: GPS World, based on data from author)
    Table 1. Preliminary 2013 U.S. GPS economic benefit estimates. (Chart: GPS World, based on data from author)

    This article is based on a presentation to the National Space-Based Positioning, Navigation and Timing Advisory Board in June 2015. The study reported on at the meeting was requested by the National Executive Committee for Space-Based Positioning, Navigation and Timing. It demonstrates the widespread use and importance of GPS to the U.S., with estimated benefits in 2013 of about $56 billion, or 0.3% of GDP for a subset of applications. The study is the first part of an effort that is expected to refine and extend this analysis.

    By Irv Leveson

    Critical to many civilian applications and innovations, GPS brings great economic benefits. These benefits have grown rapidly with the integration of GPS with other technologies and its wider and deeper infusion into applications. New GPS signals and other improvements in the system will further expand and enhance use. The unmistakable conclusion: GPS is everywhere.

    Benefits of GPS to the U.S. will increase with the availability of other GNSS systems, even though GPS will constitute a smaller share of global GNSS benefits. The U.S. will continue to provide leadership, standards and innovation in technology and applications with positive domestic feedback.

    GPS and other GNSS and enhancements raise productivity; reduce and avoid costs; save time; enable improved and new production processes, products and markets; increase health and well-being; reduce injury and loss of life; improve the environment; and increase security.

    The National Executive Committee for Space-Based Positioning, Navigation and Timing (PNT), which is responsible for maintaining U.S. leadership in GNSS, commissioned a study to assign a quantitative value to the broad economic uses of GPS. The purpose is to inform the public, federal decision makers and critical infrastructure owners/operators on the importance of GPS and the need to protect it from disruption. Assessing the economic implications of actions such as preventing or disallowing interference, spectrum reallocation, developing supplementary or backup systems and/or toughening receivers can be informed by value estimates and the data used to derive them. In addition, economic values can contribute to planning for GPS modernization and analysis of budgets. Baseline estimates facilitate comparisons with future developments. GPS benefit estimates will be “ballpark” no matter how sophisticated the methodology because of limits to the availability of information, but in many cases, knowing orders of magnitude is essential in choosing courses of action.

    Widespread, Pervasive Impact. The technological environment is one of rapid changes in information and materials technology and integration of technologies at levels ranging from systems on a chip to large-scale systems. GPS is increasingly integrated with other technologies and systems that build on each other to achieve greater outcomes.

    The U.S. Department of Homeland Security counts GPS as an enabling technology because of its crucial role in 14 of the 16 industries that are classified as part of the nation’s critical infrastructure. It is useful to view GPS’ role as being especially important in “enabling the enablers,” industries that particularly support the rest of the economy and are at the forefront of economic growth. The most notable of these are transportation, communications, power and financial services.

    Economic Value versus Impact

    Economic value is the addition to the value of the economy from the provision of a good or service, or the introduction of a technology. Benefits are measured relative to what would have been expected if there were no GPS. Direct economic value is the increase in value in using sectors. Total economic value includes increases in value to suppliers and value induced in the rest of the economy.

    Direct economic impact, on the other hand, refers to measures of the importance of sectors that are using GPS. Total economic impact is the importance of sectors affected by GPS, whether they are using it or not. Total economic impact of GPS is virtually the size of the whole economy, so it is not very meaningful.

    Direct economic impact is measured by value added of using sectors when the purpose is to avoid duplication among sectors that buy from and sell to each other. It may be measured by revenue for a single sector when adding sectors is not involved, so there is no need to avoid duplication.

    The distinction between economic value and economic impact is critical. Even if economic impact is measured by value added rather than revenue, the value is not the net addition to the economy from the use of the product or technology. It is only the size of the using sector. See Figure 1.

    Figure 1. Measuring GPS economic value and economic impact. (Chart: author)
    Figure 1. Measuring GPS economic value and economic impact. (Chart: author)

    The GSA Study

    The most comprehensive estimates of global GNSS market size come from the European GNSS Agency (GSA), which has released four market reports from 2010 through 2015. The data are measures of economic impact and not economic value. The reports are of great interest because of their comprehensive global look at the sizes of markets and inclusion of forecasts. In contrast, the emphasis in this part of the present study is on current economic value, with U.S. benefits assessed for GPS.

    One reason for interest in the GSA reports is that market information and projections often are proprietary and there can be great inconsistency across market research studies. GSA makes use of many confidential studies without revealing which sources contributed to each estimate. It apparently has been allowed to incorporate proprietary information from a number of market research firms since the data is subsumed in GSA’s own estimates and/or presented in graphs for which underlying numbers are not provided — and from which it is often difficult to even roughly extract them.

    The 2015 report stated the methodology as: “The underlying forecasting model uses advanced forecasting techniques applied to a wide range of input data, assumptions and scenarios…Where possible, historical values are anchored to actual data.” Results were checked against opinions of market segment experts and market research reports. However, these analyses are not provided in the reports and have not been made available.

    A distinction is made between the core market which covers the value of components that provide GNSS functionality in devices and enabled markets which “represent the services and devices enabled by GNSS.” The 2015 report provides global data on both core and enabled market and goes into much more detail on core markets for application sectors. In addition to providing sector information that did not appear previously, the 2015 report presents data on the extent to which each combination of the GNSS constellations was supported by receivers or chipsets offered by suppliers. Additional information on enabled sectors is in earlier reports.

    GSA found in its 2015 market report that:

    • 3.6 billion GNSS devices were in use globally in 2014, of which 3.08 billion were smartphones and .26 billion were for road.
    • North America had about 450 million devices installed (about 80% U.S.).
    • North America had 1.4 devices per capita in 2014.
    • North American shipments were 250–300 million in 2013.

    Global core revenue was estimated at roughly €62 billion and enabled revenue at €227 billion in 2014. As noted, core revenue includes GNSS device components, software and services, while enabled revenue refers to applications.

    Location-based services (LBS) was projected to account for 53.2% of 2013–2023 core revenue growth, and road for 38%.

    North American-based companies had sizeable shares of the global GNSS core market in 2012, particularly among component manufacturers. (See Table 2). Their market share among system integrators was highest in aviation.

    North American-based companies had a 44% market share of value-added services revenue in 2012.

    Table 2. North America-based company shares of Global GNSS core market, 2012. (Chart: author)
    Table 2. North America-based company shares of Global GNSS core market, 2012. (Chart: author)

    Markets and Applications

    The pervasiveness of GPS-enabled applications is illustrated by the following statistics:

    • 900 million mobile phones that incorporated GPS were sold globally in 2012.
    • The U.S. had 188 million smartphone subscribers and 263 million Internet users in 2013.
    • 20% of U.S. mobile phone users get up-to-the-minute traffic or transit information.
    • The new industry category in the 2012 North American Industrial Classification System: “Internet publishing and broadcasting and web search portals” had U.S. revenue of $87 billion and 181,000 employees in 2012.
    • Google estimated that its search and advertising tools provided $111 billion in economic activity in the U.S. in 2013.
    • Deloitte estimated that Facebook enabled $104 billion of economic impact and 1.2 million jobs in North America in 2014.
    • Google Play and the Apple App Store each had more than 1.2 million apps in 2014.

    How GPS Is Used. Uses of GPS include:

    • In agriculture for auto-steering tractors, combines and sprayers for precise operation, variable rate technology for precise placement of seed, fertilizer and pesticides, and for yield monitoring.
    • Managing forest health and ecological restoration, reducing fire and other hazards, and harvesting forest products.
    • In commercial fishing, navigation, finding fishing locations and monitoring fish catch by authorities.
    • In construction to direct the movement of dozers, excavators, pavers, scrapers, compactors and other heavy equipment and the placement of blades to give precise results.
    • In open-pit mining to guide loaders, dozers, drills and draglines.
    • In offshore energy exploration and development, for drilling, installations, pipe laying, diving operations, pipe inspection, repair and abandonment.
    • In surveying, to greatly reduce costs and to improve quality of products that rely on it.
    • In aviation, for navigation and monitoring positions of aircraft and for satellite-based augmentation systems (WAAS in the U.S.). GPS is the principal source for navigation for aircraft equipped with Area Navigation (RNAV) or Required Navigation Performance (RNP).
    • Railroad train pacing systems for cruise control, positive train control to keep track of train location and movement authorities, track defect location, and locating trucks with rail workers.
    • In marine transportation, for navigation, collision avoidance, communications and situational awareness and for monitoring by offshore authorities.
    • In vehicles, with handheld and embedded devices for navigation and fleet management.
    • For precise timing and time synchronization and frequency coordination (syntonization). It is used most notably in broadcasting and communications, including both cell phones and traditional telephone applications and the Internet, so packets arrive at the same time, for power generation and distribution to locate problems, and in financial services for time-stamping transactions.
    • In first responder services for location, navigation and communications and in emergency warnings and evacuations.
    • In structural monitoring of dams and bridges.
    • In environmental monitoring, including vegetation growth and sea-level change.

    LBS and GIS

    Rapid growth is taking place in location-based services (LBS) and geographic information services (GIS), which include everything from indoor location to many aspects of the Internet of Things and the “sharing economy,” and sophisticated systems for information management, analysis and display.

    GPS is used for tracking and inventorying assets ranging from heavy machinery on farms and construction and mining sites, to pipes and other materials, containers in trucking sites and ports, and the location of utilities in the ground. In logistics it facilitates planning of product flow and transport.

    The growth of same-day delivery — which takes advantage of Internet, cell phone, and location and navigation technologies enabled by GPS — is a continuation of the growth in just-in-time delivery that has been a phenomenon in manufacturing for several decades. Now it is having a profound effect on wholesale trade, retail trade and transportation.

    The size of the LBS and GIS sectors is not defined and measured in a consistent way, and except for vehicle use, there is little information on productivity and saving in costs and time. (See sidebar box.)


    LBS and GIS Market Size Estimates

    For LBS and GIS, definitions and measures can vary greatly and often are not explicit.

    Location-Based Services Market Size Estimates

    • Frost & Sullivan estimated the global LBS market at €22.8 billion in 2012 and forecast €32.0 billion in 2015.
    • Market and Markets estimated global LBS revenue at $8.1 billion in 2014.
    • Berg Insight estimated North American LBS revenue at $835 million in 2012.

    (The U.S. can be assumed to spend 20–25% of the world value and about 80% of the North American value.)

    Geographic information Systems Market Size Estimates

    • BCG estimated revenue of the U.S. GIS industry at $73 billion in 2011.
    • The global GIS market will reach $10.6 billion in 2015, according to a report of Global Industry Analysts in 2013.
    • The Canadian Geomatics study found private-sector spending of $2.3 billion in 2013. If U.S private spending was the same percentage of GDP, it would be $23.6 billion.

    International Trade

    Official data show a $2.3 billion U.S. deficit in trade in GPS equipment in 2013. This gives an incomplete and misleading picture of the role of the U.S. and the benefits that result. See Figure 2.

    Figure 2. U.S. trade in GPS equipment, 2013 (millions of dollars). (Chart: author)
    Figure 2. U.S. trade in GPS equipment, 2013 (millions of dollars). (Chart: author)

    The trade numbers for GPS equipment do not include revenue for licensing, international payments received by social media and e-commerce companies, or other Internet-based revenue for which the U.S. may have a substantial net trade surplus and which are an important source of revenue and profits of U.S.-based companies.

    Imports of GPS equipment software and services enable the U.S. to gain more efficient production in many applications at home and enable the U.S. to export more goods and service that rely on GPS.

    Exports of GPS equipment come back to the U.S. as components that benefit U.S. businesses and consumers with more capable products and lower prices. Exports of GPS equipment enable other countries to build on the technologies and contribute to innovation, while imports enable the U.S. to share in foreign innovations. Exports of GPS equipment and associated knowledge also raise incomes in other countries, creating larger markets for U.S. goods and services.

    Scope of Benefit Estimates

    The U.S. benefit estimates reported here are the result of an initial effort and are not meant to be comprehensive. More work is expected to be done to fill in some of the gaps.

    Sectors were chosen based on availability of information to permit relatively robust estimates and importance to the economy or policy issues. These considerations limited the number of sectors for which estimates could be made. Methods were determined based on the nature of available studies and varied among sectors. Only economic benefits were included, with health and safety and environmental benefits left for later research.

    Benefits include the value to users above their costs (consumer surplus). Benefits of GPS are compared with alternatives without GPS or an application using it (counterfactuals). Estimates are gross. They are not reduced by the costs of achieving the benefits. Contributions of augmentations are included, since a quantitative basis for separating them is not available.

    Estimates were primarily benefits through productivity and cost savings in operations, with savings in input costs included where their magnitudes were clear. Benefits to the rest of the economy are not included. Illustrative allowances were made for the contributions of other technologies and systems to the outcomes examined.

    In the case of GPS timing, the estimates were based on the costs avoided by not having to develop an alternative timing source on the assumption that the type of alternative source possible would have evolved from the time GPS became available. The measure does not represent the value of GPS time and synchronization to the nation and to users relative to the absence of a precise time and frequency source.

    Government was included in the estimates for construction, surveying, and fleet and non-fleet vehicles. For timing and non-fleet vehicle benefits, two alternative measures are averaged. Sectors with lower quality estimates ­— rail and maritime transportation — were included because of their importance to the economy. Shares of benefits attributable to GPS were rough assumptions. More robust estimates would require extensive data collection and interviewing in studies greatly exceeding available time and resources.

    The primary focus was on productivity improvements, cost savings and cost avoidance, where costs include users’ time. Productivity increases and cost reductions allow more to be produced with the same amount of resources in the sectors utilizing the technology or allow resources to be freed up for other purposes. In that sense, they are equivalent.

    When benefits are measured by productivity gains or cost savings, much of consumer surplus (the value to users above what they pay) is implicitly included. Some sources measure value by willingness-to-pay. Willingness-to-pay includes consumer surplus. It also encompasses costs of the purchase and other costs incurred by the user.

    Criteria for Selecting Sectors

    The potential for making sector estimates of economic benefits was categorized in three basic levels:

    confident: based on robust estimates.

    indicative: based on one or more less robust estimates.

    notional: illustrative, if major contributions of other technologies are not separated and estimates must be based on a plausible percentage of a larger benefit, or if information is not available and estimates must be based on a percentage of market size.

    Choices among categories for estimation and estimation methods depended not only on which of the basic criteria are satisfied but also on the following additional criteria:

    • The importance of the sector to the economy, for example as an enabler of other activities.
    • The potential use of benefit estimates for the category as an input into analyses of the effects of signal disruption.

    Several dozen studies were assessed to determine categories for inclusion and to select studies that can form the basis of estimation. Studies for use in estimation of benefits in a category were chosen according to how well they met the following criteria:

    GPS. A test of introduction of GPS or comparison with and without GPS rather than benefits of a broader service.

    Coverage. Estimates that cover a major part of the category.

    Robustness of estimates, including the type of review the source is likely to have had.

    Consistency. If alternative better estimates are not in such a wide range that an average is less meaningful except where explainable by expected sources of variation.

    Timeliness. Preference to a recent period being covered by the estimates.

    U.S. Economic Benefit Estimates

    Preliminary estimates of economic benefits for included U.S. sectors totaled $55.8 billion in 2013. Averaging the alternative estimates, the sum of the benefits in the two vehicle categories is $25 billion, by far the largest of the sectors estimated. Next were agriculture with $13.7 billion, and surveying with $11.6 billion.

    Economic benefits are underestimated for several reasons. Some sectors are not included because of lack of information on productivity and cost savings, namely LBS other than vehicle, including asset tracking and locating people; GIS and mapping other than nautical charts, forestry, fisheries, mining, energy exploration and development, land and coastal management, weather, and scientific applications and space.

    Parts of others are not included: non-grain agriculture, construction other than earthmoving, GPS in aviation for some Area Navigation (RNAV) Standard Instrument Departure Routes (SIDs) and Standard Arrival Routes STARS) and Required Navigation Performance (RNP), and rail other than positive train control.

    Some estimates are conservative. The value of saved time in non-fleet vehicle transportation is based on the recommendation of the Transportation Research Board rather than the much higher value used by the U.S. Department of Transportation.

    Some types of benefits are not included — specifically, benefits of GPS timing applications above the cost of alternatives, and avoided income loss, property damage and medical costs associated with reduced accidents and improved emergency response.

    Increases in benefits between 2003 and 2005 are not estimated.

    And, as indicated, non-economic benefits such as those to health, safety, security, reduced loss of life and to the environment are not yet addressed.

    Benefits as measured thus far are about 0.3% of GDP in one year. If all of the excluded sources of benefits were quantified, the benefits would be much larger.

    Estimating Benefits for Sectors

    U.S. economic benefits of GPS for grain farming were estimated for farms with grain sales of $250 million or more. The same method as was applied for earthmoving in construction.

    A composite range of percentages of productivity gains and cost savings of 18–25% was determined from various studies. In the case of grain farming, benefits also come from yield increases due to improvements in plant health. The productivity gains used in the calculations incorporated both sources of benefits. Productivity was taken together with market size and an estimate of 68% adoption of technologies taking advantage of GPS to compute initial estimates of benefits. A notional adjustment was then made to exclude the contributions of other technologies and GNSSs. While having the adjustment determined by a group of experts would have been preferred, that was not possible with the time and resource constraints of the study.

    Benefits of GPS machine guidance with earthmoving in construction were calculated based on an 8–12% share of construction for earthmoving operations, a benefit of 18–22% and a 20–25% adoption rate, relying on a number of sources.

    For surveying, an estimate of market size was constructed based on U.S. Bureau of Labor Statistics data on numbers of surveyors, cartographers and photogrammetrists in the engineering services industry vs. the rest of the economy, together with revenue data for private surveying and mapping from the Economic Census. This was combined with a composite estimate of productivity gains over conventional surveying of 45–55% and an assumption of 100% adoption.

    The benefit values for air transportation were estimated for the study by the Federal Aviation Administration (FAA) based on effects of WAAS and performance-based navigation (PBN). The rail estimates cover only positive train control, which is in early stages of implementation. Information is highly uncertain, but impacts as of 2013 are small. Maritime benefits were based on updating an earlier estimate of benefits of the private-sector value of nautical charts. The estimates for fleet vehicle-connected telematics were based on savings found in an extensive survey of fleet customers over a five-year period.

    Timing benefits were based on the avoided costs from not having to develop an alternative source of timing. Alternatives considered were eLoran and a system of three geostationary satellites. Since there would have been strong pressures to develop an authoritative timing source in the absence of GPS timing, it was assumed that one of the alternatives would have been developed rather than assuming as in other cases that technologies in use when GPS became available would have continued in use.

    Two estimates also were made for consumer and other non-fleet vehicle use. One was based on extrapolating results of a study of consumer willingness to pay for navigation services, and the other on time saved by navigation services.

    Part of the benefits of LBS other than those that are vehicle-related and for GIS are implicitly included in estimates for sectors that use them.

    Data and Research Needs

    Additional work would be desirable to extend and refine the GPS economic benefit estimates, quantify safety-of-life and environmental benefits, examine international benefits, assess potential future benefits and consider loss from denial of GPS. Benefits of many new and rapidly growing services are yet to be quantified.

    Systematic research is needed to fill in gaps in adoption, productivity and cost savings with comparative before-and-after studies as well as with case studies. Robust studies require major and often multi-year efforts involving targeted data collection, which are rarely done by government or academics for GNSS. Information needs to be much more granular, taking into account specific functions in which GNSS is used (such as plowing, seeding, fertilizing, harvesting), specific GNSS and non-GNSS technologies employed in each function at each site, and extent of their use.

    Also, results for GPS might be improved or at least be more acceptable if the contribution of other technologies and GNSSs to measured benefits were assessed by a group of knowledgeable individuals rather than by a single researcher.

    Information on market size, penetration and growth from market research firms, which tends to capture recent developments, is based on greatly varying sources and methods, resulting in major gaps and great divergence in estimates, especially in new or rapidly growing areas like LBS and GIS. The North American Industrial Classification System (NAICS) and its application in federal data collection such as in the Economic Census lags far behind in recognizing new categories and providing sufficient detail. Lags in data collection and research lead to understatement of the use and benefits of GPS.

    Looking to the Future

    Future benefits are expected to be even greater because of evolution of technologies, expansion of GNSS systems, creation of new products and markets, and growth and penetration of markets. The possibilities are suggested by the numerous nascent applications that have been emerging. Many will be enabled by expanding GNSS systems, signals and capabilities in conjunction with geographic expansion and increased capabilities in wireless systems.

    The progression of platforms is long and growing: mainframes, PCs, mobile phones and other handheld devices, tablets, game controllers, wearables, TVs, home appliances, air and space — including planes, UAVs, satellites, planets, moons, rovers, rockets and spaceships.

    The widespread availability of platforms and the growing ability to utilize them promises a long way to go in developing applications and deriving benefits.

    Acknowledgments

    The author thanks the PNT Advisory Board and Gov. Jim Geringer, liaison from the board to the study; Jason Kim of the Department of Commerce who oversaw the project; Jim Miller of NASA; and the members of the interagency Economic Study Team that advised the effort. Numerous additional people in and out of government provided information and assistance. Responsibility for the content and findings rests with the author.


    IRV LEVESON, who has a Ph.D. in economics from Columbia University, is an economic and strategy consultant and founder of Leveson Consulting. He has done extensive work on GNSS markets and issues for more than 10 years. He is a member of the Institute of Navigation, the American Economic Association and the National Association for Business Economics.

  • sensewhere Secures Investment for Indoor Positioning

    sensewhere Secures Investment for Indoor Positioning

    sensewhere-tablet-W
    sensewhere’s crowdsourcing technology enables precise location information, with no additional infrastructure, in areas where there is no or inaccurate GPS satellite data such as indoors or in tight urban areas.

    Tencent Holdings Ltd., a provider of Internet services in China, has completed a strategic investment in sensewhere Ltd., a provider of indoor location solutions based in Scotland. Tencent has also secured a license to use sensewhere indoor positioning software as part of its Tencent Map Location software development kit (SDK) that is available to numerous users across Tencent mobile platforms and mobile services of Tencent affiliate companies.

    The investment will help sensewhere develop potential partnerships in China’s mobile Internet space, deliver its mobile advertising service, fuel expansion of the company and its indoor location solutions. As part of the arrangements, sensewhere will be Tencent’s preferred vendor for location-based advertising services in China.

    “This investment by Tencent will be significant for the company and is an endorsement of our technology, strategy and ability to deliver low cost, highly scalable and highly accurate Universal indoor positioning,” said sensewhere CEO Rob Palfreyman. “I am thrilled with the collaboration, and having Tencent as a strategic investor will help take sensewhere to the next level and assist us growing our customer base, building new Location Based Services and investing further in R&D.”

    “The investment by Tencent highlights the advantage of sensewhere’s indoor positioning technology over other solutions and further cements our position as a leading Indoor Positioning System (IPS) provider,” said sensewhere Chairman Jim Devine. “The planned roll out of multiple services to millions of users across China and contiguous territories which incorporate sensewhere’s enabling technology represents a major step forward towards our goal of providing a truly global solution for indoor positioning.”

    sensewhere believes that its seamless, automatic solution for IPS and easy integration with mobile applications and devices will be the driving force behind emerging technologies, such as automatic beacon mapping, wearable technology, artificial intelligence, mobile advertising and using its live database to power next-generation location-based services.

    “We believe that a superior, universal indoor positioning technology will deeply influence how people interact with each other, and significantly change how companies communicate with consumers and conduct commerce indoor across online and offline platforms,” said Julian Ma, corporate vice president of Tencent in Mobile Internet Group. “sensewhere’s unique, highly scalable approach will greatly enhance Tencent Map’s indoor positioning capabilities and enable our users to navigate indoor in a much more accurate and convenient manner.”

    The video below explains sensewhere’s indoor location technology.

  • Commercial Systems Touted for Indoor Emergency Services

    Commercial Systems Touted for Indoor Emergency Services

    TCS' Matt Vincent poses with public safety gear that includes Taoglas Storm Antenna at APCO.
    TCS’ Matt Vincent poses with public safety gear that includes Taoglas Storm Antenna at APCO.

    It is refreshing to see nascent technology such as indoor location being used to enable accurate emergency services response. That’s what’s going on right now as beacons, Wi-Fi and other technology that works inside, where GPS doesn’t work, is being tested nationwide by companies hoping for government adoption. With new FCC regulations that are finally trying to keep up with commercial location products, it may be a reality soon. What really drove location into wireless handsets was the 1990s FCC regulations — will they now drive indoor positioning?

    GSI Labs' John Martin holds indoor beacon at APCO.
    GSI Labs’ John Martin holds indoor beacon at APCO.

    WASHINGTON — The same technology that allows consumers to find products indoors will allow emergency personnel to locate people in trouble in the coming years, said officials at the Association of Public-Safety Communications Officials (APCO) annual meeting here, held Aug. 16-19.

    Companies are using existing commercial technologies, also used by retailers to determine customer preferences, to provide indoor location in combination with the National Emergency Address Database. This provides public-safety answering points, or PSAPs, accurate addresses and positions to dispatch emergency services to allow first responders to find people on specific floors and in rooms, not huge areas.

    Beacons and Wi-Fi seem to be the lead technologies in use for emergency indoor location. Longmont, Colo.-based Intrado installed 65 Apple iBeacons at the Washington Convention Center to showcase its developing indoor positioning technology.

    “Old 9-1-1 technology was just a dot on the map. Now people are saying, ‘how can Starbucks can find me, but 9-1-1 can’t?’” said John Snapp, Intrado senior technical officer.

    Another company, TeleCommunication Systems, is getting into the indoor public safety market with its LocatE9-1-1 product that leverages the company’s indoor location engine, or ILE. The ILE connects to multiple databases that can be used during a 9-1-1 call to determine what location information is available for the wireless device.

    “Deep inside buildings, location technology often fails us. Sometimes emergency workers have to rely on verbal information [from people at the scene],” said Tim Lorello, TCS senior vice president and chief marketing officer. “We are a location aggregator. However, we do know location won’t be deployed everywhere, but there are multiple technologies tied to Wi-Fi hotspots, barometric pressure and Bluetooth.”

    In addition to government agencies, wireless carriers are taking notice of the indoor positioning capabilities for public safety. At APCO, GSI Labs, a 20-year-old business, was in the AT&T booth displaying its codeBlue-911 beacon system. “We think that for bigger venues such as warehouses and stores, this is a great public safety tool. The [Bluetooth Low Energy] beacons have about 20-to-50-foot accuracy, depending on the battery,” said GSI Labs’ John Martin. “A security company is looking at using the beacons to monitor employees during the night.”

    OnStar booth features wrecked car to portray emergency messaging capabilities at APCO.
    OnStar booth features wrecked car to portray emergency messaging capabilities at APCO.

    FCC Still at Forefront of Location Accuracy Requirements

    In an address at the conference, FCC Chairman Tom Wheeler said that the agency has taken steps to increase the reliability of the nation’s 9-1-1 system. “Uber can pinpoint [a potential customer]. We won’t tolerate 9-1-1 failures,” said Wheeler, who also called for a national maps database.

    Some people newer to the location industry don’t remember it was the enhanced 9-1-1 FCC rules that drove the installation of GPS into cell phones in the mid-1990s. In several presentations at APCO, it was noted that more than 80 percent of all emergency calls are made with a wireless device, not landline.

    The FCC announced new rules this year that require wireless operators to provide dispatchable location within 50 meters with these new deadlines and conditions: 40 percent of all wireless 9-1-1 calls within 2 years; 50 percent within 3 years; 70 percent within 5 years; and 80 percent within 6 years.

    If anyone doesn’t think the FCC is the 800-pound regulatory gorilla for location, then they have missed the LightSquared GPS signal interference saga. According to published reports, LightSquared has hired Reed Hundt, former FCC chairman, as an attorney representing the company.

    LightSquared, which is trying to emerge from bankruptcy, has been seeking FCC approval to transfer its spectrum licenses to its new entity. The company is trying to see if the GPS interference issues can be resolved.

    In other APCO news, Time Machines rolled out its TM 2000A timing device that costs $499.95. The big deal about the timing device is the price — which has many of the same features that competitors offer for more than $5,000, said Doug Ehlers, Mindshare by CSS president, a sister company of Time Machines, who also said the company is expanding its distribution in Europe.

    Gimbal Partners with Do It Outdoors Media

    While emergency networks are getting big, the commercial networks are continuing to make inroads with advertising agencies and partners. Location and proximity-based marketing company Gimbal recently partnered with Do It Outdoors Media in a deal that will use Gimbal’s beacon technology.

    Gimbal said that Do It Outdoors Media, which is the largest national mobile billboard and field marketing company, will create a smartphone campaign that provides proximity-based consumer offers to opt-in users.

    Beacons will be placed in Do It Outdoors Media’s mobile billboard units, which are owned and operated by the company. In addition, there will be product placement on Segways, jet packs, brand ambassador teams and other marketing sites.

    Gimbal says that when a consumer enters into a beacon zone, which is effective from 50 meters away, content will be delivered through a push notification within an advertiser’s or a third-party mobile app.

    In other location news:

    • While a small trade show for a focused group of government communication professionals, APCO drew 5,700 attendees, with 282 exhibitors. Conference organizers said it was the highest attended show in seven years.
    • An updated version of the former GPS-Wireless conference will take place Dec. 2-3 at the Crowne Plaza San Francisco Airport Hotel. The conference, Location IoT, will focus on new markets for M2M and the Internet of Things. Topics will include indoor location markets, connected vehicles and many others. Two hosted networking receptions are included. Contact me, Kevin Dennehy, at kdennehy @g psworld.com for more information.
  • Post-Mortem on Flight MH370 Crowdsource Search

    Post-Mortem on Flight MH370 Crowdsource Search

    Janice Partyka
    Janice Partyka

    Last year, in a massive crowdsourcing effort, eight million volunteers from around the world sat at their computers and searched high-resolution satellite imagery looking for signs of Malaysia flight 370, which had left Kuala Lumpur and never arrived in Beijing. The effort was akin to putting thousands of digital helicopters into the sky above 340,000 square kilometers of ocean. The project, organized by DigitalGlobe’s Tomnod group, didn’t find evidence of the plane. More than a year later and with wreckage recently discovered, it’s a good time to do a post-mortem of the crowdsourcing effort that involved amateur GPS citizen scientists from around the world.

    Tomnod provided volunteers with images of the Thailand Gulf, Andaman Sea and areas of the Indian Ocean (West of Australia), an area that had been recommended for scrutiny by AMSA, the Australian Maritime Safety Authority. The area was organized by map tiles, each one-eighth of a kilometer. The images provided to the volunteers were still photos, a snapshot in time. The search followed the core rule of crowd sourcing — redundancy, and all map tiles were reviewed by multitudes of people.

    Malaysian_DigitalGlobe-O
    The Tomnod crowdsourcing website from 2014.

    I signed up to search images, and like others, was instructed to individually tag signs of wreckage, rafts, oil spills and interesting objects. Volunteers submitted 18 million tags for further review. Some of the tags were then inspected by analysts at Tomnod, but the vast majority were analyzed by computer programs alone. Search and rescue organizations were given the results to aid their search efforts.

    With advancements in object recognition, one would think it possible for the initial search to be done by computer vision algorithms. Crowdsourcing could be used to manually clarify or further refine classifications. Tomnod believes identifying objects in the ocean is difficult and best done by humans, but has used digital object recognition in a new project. “For our project of mapping Swaziland to help eliminate malaria, Tomnod uses object recognition algorithms to locate buildings,” says Caitlyn Milton of DigitalGlobe. “Our next step is having crowdsource volunteers manually draw building footprints for each individual building. We either use volunteers or deploy our algorithm to identify the roof types (metal, wood or thatch), which are correlated with Malaria rates.”

    Debris from flight MH370 washed up on Réunion Island in July.
    Debris from flight MH370 washed up on Réunion Island in July.

    Tomnod would have needed a trifecta: the correct geographic area, visible debris and identification of the debris to yield the actual crash site. Unfortunately, even with the discovery of plane parts found last month near Réunion Island in the Indian Ocean and even with analysis of ocean currents and weather conditions, it will be difficult to ascertain if the plane crashed within the Tomnod search area.

    Crowdsourcing is not new to mapping. European countries offered hefty pouches of gold in the 1500s to people who could help solve the puzzle of determining latitude for maritime navigation. The competitors were well educated — mathematicians, astronomers and watchmakers. To contribute today, all one needs is a computer, a wireless connection and free time.

    Next month, I’ll be in Las Vegas at CTIA’s Super Mobility 2015 reporting on industry developments. If you have interesting news, contact me.

  • SNL Comedian Michael Che to Speak at CTIA Super Mobility 2015

    SNL Comedian Michael Che to Speak at CTIA Super Mobility 2015

    Michael Che co-hosts Saturday Night Live's Weekend Update.
    Michael Che co-hosts Saturday Night Live’s Weekend Update.

    Saturday Night Live comedian and co-anchor of “Weekend Update” Michael Che will be featured at CTIA Super Mobility 2015. Named as one of Rolling Stones’ 50 Funniest People, Buzzfeed’s 50 Hottest Men in Comedy and Variety’s Top 10 Comics to Watch, Che will report from the keynote stage with his thoughts on wireless news, hot topics and features at the industry’s annual convention.

    CTIA Super Mobility 2015, the largest mobile marketplace in the Western Hemisphere, will be held Sept. 9-11 at the Sands Expo and Convention Center in Las Vegas. More than 40,000 people are expected to attend.

    “CTIA Super Mobility is the best show for anyone who wants to create or improve their mobile strategy, since it’s the entire ecosystem under one roof. While wireless technology will certainly be the focal point, it’s also an opportunity to hear from Michael, who is one of America’s funniest people, share his perspective about our mobile-first lives,” said CTIA Vice President and Show Director Robert Mesirow.

    Michael Che joins a lineup of keynote speakers representing the mobile industry’s diverse community, from innovative network providers to disruptors in media, retail and fitness, CTIA-Wireless said.

    CTIA Super Mobility 2015 Keynote Lineup

    Wednesday, Sept. 9, 9:00-10:30 a.m. PT

    Meredith Attwell Baker, President & CEO, CTIA–The Wireless Association
    Ron Smith, CTIA Chairman and President & CEO, Bluegrass Cellular
    Tom Wheeler, Chairman, Federal Communications Commission
    Marcelo Claure, President & CEO, Sprint
    Show Report: Michael Che, “Weekend Update” Co-anchor, “Saturday Night Live,” NBC

    Thursday, Sept. 10, 9:00-10:30 a.m. PT

    Glenn Lurie, President & CEO, AT&T Mobility
    Bob Pittman, Chairman & CEO, iHeartMedia, Inc.
    Marni Walden, EVP & President of Product Innovation and New Businesses, Verizon

    Friday, Sept. 11, 9:30-10:30 a.m. PT

    Robin Thurston, Chief Digital Officer, Under Armour