GPS World

Tag: rugged handheld

  • Handheld Group Launches Nautiz X8 Rugged Device

    Handheld Group Launches Nautiz X8 Rugged Device

    handheld-nautiz-x8-ultra-rugged-ip67-mapping-W Photo: Handheld Group
    Photo: Handheld Group

    Handheld Group, a manufacturer of rugged mobile computers, has launched the Nautiz X8 rugged PDA. The Nautiz X8 is a handheld computer with superior processing power, screen performance and battery life, the company said. It is built for tough field conditions primarily in GIS, land surveying, public safety, forestry and the military.

    handheld-nautiz-x8-ultra-rugged-military-rugged-W Photo: Handheld Group
    Photo: Handheld Group

    The Nautiz X8 is built to enable efficient and reliable data collection in tough environments. It has an IP67 ingress protection rating, which means it offers complete protection against dust and sand and can withstand immersion in water. It also meets stringent MIL-STD-810G military test standards for overall durability and resistance to humidity, shock, vibration, drops, salt and extreme temperatures.

    The Nautiz X8 features a high-performance Texas Instruments 4470 dual-core 1.5 GHz processor. It has 1 GB of RAM, 4 GB of iNAND Flash and a 5200 mAh Li-ion battery that lasts up to 12 hours on a single charge. It comes with a choice of operating systems — Android 4.2.2 or Windows Embedded Handheld 6.5.3.

    The device has a large 4.7-inch ultra-bright capacitive multi-touch screen with chemically strengthened Asahi Dragontrail glass, offering users brightness and protection in any field condition. The unit has an ergonomic design and weighs 490 grams (17.3 ounces).

    The Nautiz X8 has a dedicated u-blox GPS receiver, Bluetooth 2.0 and 802.11b/g/n WLAN functionality, as well as connectivity through GSM/UMTS or CDMA phone data transmission. A built-in 8-megapixel camera with autofocus and an LED flash lets users capture visual data quickly and easily. This handheld also features an open architecture and an extension cap system that allows for additional hardware connections such as sensors, radios and other add-ons.

    Orders for the new Nautiz X8 can be placed immediately. First deliveries will begin in November.

    The Nautiz X8 rugged handheld will be shown first at WEFTEC in New Orleans, followed by InterGeo in Berlin.

  • Janam Introduces Powerful Rugged Tablet

    Janam Introduces Powerful Rugged Tablet

     

    Janam-xt1
    Photo: Janam Technologies LLC

    Janam Technologies LLC, a provider of rugged mobile computers that scan barcodes and communicate wirelessly, has launched XT1, a powerful rugged tablet for the mobile workforce. The XT1 rugged mini-tablet is Janam’s first device to support the Android operating system, and is built to meet the diverse needs and demanding requirements of enterprise and government customers.

    The XT1 combines best-in-class technologies with a sleek and rugged form factor, providing mobile workers with the information they need to make better informed decisions, increase customer satisfaction, and improve operational efficiencies, the company said. Equipped with integrated 2D barcode scanning technology to eliminate the challenges often associated with camera scanners or bulky sled attachments, the XT1 is designed to improve worker productivity in field sales, field service, healthcare, hospitality and retail markets.

    “Many enterprise customers require more screen viewability than traditional PDAs or handheld computers offer, yet full-display rugged tablets are large, thick, heavy and unwieldy,” said Harry B. Lerner, CEO of Janam. “Janam resolves this dilemma. The XT1 blends cutting-edge technologies most often found in consumer phones with mission-critical key features that enterprises need such as ruggedness, sealing, barcode scanning and rapid battery recharging, among others. The result is a sleek, lightweight, rugged mini-tablet that delivers superior performance without sacrificing usability.”

    In addition to 4G-ready UMTS/HSDPA/HSUPA/GSM wireless wide-area network communication, the XT1 is equipped with 802.11a/b/g/n dual-band WLAN for access to the information mobile workers need to get the job done, inside and outside the four walls. With IP54 sealing and the ability to withstand repeated three-foot drops to concrete, the XT1 delivers the reliability needed to excel in the most demanding environments, Janam said.

    XT1 features include:
    Android 4.2 operating system
    TI OMAP4470 @ 1.5GHz
    5.9-inch WVGA TFT capacitive touchscreen
    High-performance 2D data capture
    Multiple 3-foot/1-meter drops to concrete
    IP54 sealing against environmental elements
    Embedded RFID and NFC capabilities
    Optional 3G/4G WWAN technology (UMTS/HSDPA/HSUPA/GSM)
    1GB RAM, 16GB ROM
    Wi-Fi 802.11a/b/g/n
    Bluetooth 4.0 (BLE)
    High-sensitivity GPS and Assisted GPS
    Motion sensing accelerometer
    Front/rear cameras
    User-accessible microSD card slot
    3.5mm headset jack
    MicroUSB connector
    3000mAh rechargeable LiIon battery

  • Juniper Systems Opens Rugged Handheld Company, Cedar Tree Technologies

    Juniper Systems Opens Rugged Handheld Company, Cedar Tree Technologies

    The Cedar Tree CT4 handheld.
    The Cedar Tree CT4 handheld.

    Juniper Systems is launching Cedar Tree Technologies, a rugged handheld company. Cedar Tree, based in Corvallis, Oregon, brings ruggedness, affordability, and intuitive software to its customers — mainly consisting of mapping and field service professionals, according to Juniper Systems.

    Cedar Tree Technologies is a recently launched rugged handheld company founded by Juniper Systems.
    Cedar Tree Technologies, which exhibited at the Esri User Conference in July, is a recently launched rugged handheld company founded by Juniper Systems.

    Cedar Tree’s new products — the CT7 tablet and CT4 handheld — run on the Google Android operating system, providing access to thousands of business and field-ready apps on the Google Play Store. Both devices can easily be customized by users via software.

    The CT7 tablet features a 7-inch display, while the CT4 handheld has a more compact design, with a smaller 4.3-inch display. Both devices provide useful features such as GPS and camera, as well as excellent durability and functionality — all for the price of a smartphone. The CT7 and CT4 will be shipping within the next 30 days.

    “By leveraging the wide array of apps and services available through the Android operating system, Cedar Tree Technologies offers users a complete rugged data collection solution out of the box,” said Rob Davis, Cedar Tree Technologies’ General Manager. “Add to that the fact that you can purchase one of these durable devices for about the same price as your smartphone, and it really makes it an easy decision.”

    “Cedar Tree Technologies builds upon Juniper’s product offering, providing customers with a broader range of choices,” said Juniper Systems’ CEO, Rob Campbell. “This additional product variety allows customers to find the best fit for their needs, whether they need maximum ruggedness from a Juniper Systems product, or whether they need a very durable product that runs on more consumer-like platforms, like Cedar Tree’s products.”

    The Cedar Tree CT7 tablet.
    The Cedar Tree CT7 tablet.
  • Rugged IP68 GPS Handhelds and Field Computers Launched

    Rugged IP68 GPS Handhelds and Field Computers Launched

    The GAGAN-enabled Sxtreo GN11.
    The GAGAN-enabled SXtreo GN11.

    Stesalit today announced the availability of the SXtreo range of rugged GPS handhelds for survey, industrial use, and field work under extreme conditions such as agriculture, forestry, roads, security and construction.

    The SXtreo series of mobile devices are rated IP-68, meaning they are waterproof, dust proof, shockproof, and are coupled with built-in mobile GIS applications. Long battery life allows GPS data collection for a full work day, without the need for recharging. The GNSS devices come with full-size USB port for connecting devices.

    Stesalit is based in India, and the SXtreo gives that country an affordable option to take geotagged photos and conduct waypoint surveys. The design and conceptualization of SXtreo is a result of the in-house R&D effort of Stesalit. The road towards the birth of SXtreo is presented in the video:

    The GAGAN-enabled SXtreo GN series of rugged GNSS field computers and PDAs comes with a full keypad and large five-inch sunlight-readable screen for field data entry in large forms. These models are designed for GPS data collection and asset management, socioeconomic surveys, mapping, agriculture, logistics, forestry, public transportation, construction and security.

    The SXtreo WP 60 and WP61 devices have all the features of a smartphone.

    The Sxtreo WP 61 rugged smartphone.
    The SXtreo WP 61 rugged smartphone.

    SXtreo handheld’s Android and embedded Linux-based open-source secured operating systems are compatible with a range of sector-specific applications designed by Stesalit.

    • SXgeo is specially designed for waypoint, routes, and track surveys. The added advantage from the similar existing applications is that one can capture geotagged photos and transfer the survey data through GPRS.
    • SXsurvey is a complete suite for comprehensive survey management. With the features of SXgeo, one can also create large forms dynamically in the devices for survey data collection.
    • SXfield is specifically built for the field workers and employees working away from office like road construction, oil, gas and other utility services, logistics and distribution chains, FMCG, consumer and white good companies with large sales networks, operations and maintenance organizations with large service networks, and security organizations including police.
    • The integrated application SXagro is a geospatial agriculture decision-support system in use by agriculture universities and state agriculture departments.

    In addition, the SXtreo range of IP68 rugged smartphones is compatible with most of the off-the-shelf mobile software applications.

  • Juniper Systems’ Archer Field PC Records Elevation of Remote Himalayan Peak

    Juniper Systems’ Archer Field PC Records Elevation of Remote Himalayan Peak

    Juniper_Archer_on_Mountain
    Photo credit: Mark Fisher at www.fishercreative.com, Instagram: @fishercreative; via Juniper.

    Juniper Systems’ Archer Field PC has beenused to record the elevation of a never-before-climbed peak in the remote Myanmar Himalaya. The peak, Mount Gamlang Razi, has historically been known as the second highest peak in Southeast Asia, but a joint American-Myanmar-led expedition set out on a mission last September to hopefully prove that it is in fact the tallest. Read the whole story on Juniper Systems’ blog.

    Standing at a reported 5,881 meters tall, Mount Hkakabo Razi has long been known as Southeast Asia’s highest peak. In recent years, however, the legitimacy of the elevation of Hkakabo Razi has come into question. Current digital analysis suggests that initial surveys of Mount Hkakabo Razi were overstated and its actual elevation is as much as 100 meters lower than originally believed. At the same time, digital analysis suggests that virgin-peak Gamlang Razi may in fact be the taller peak. This controversy prompted Idaho resident and experienced climber Andy Tyson to lead an American-Myanmar expedition team on a three-week approach through 150 miles of cobra-riddled, mosquito-infested jungle, and from there up to the peak of Gamlang Razi to measure its elevation in person.

    Tyson needed a device that could accurately record the elevation at the summit, while being able to withstand the extreme conditions of the hot, wet jungle and the frozen mountaintop. With this in mind, Tyson requested from Juniper Systems a top-of-the-line rugged handheld. In response, Juniper Systems provided the team with an Archer Field PC with Hemisphere GPS XF101 receiver, along with training to record the GPS data they needed.

    Setting up the Archer Field PC to collect GPS data. Photo credit: Mark Fisher at http://www.fishercreative.com. Instagram: @fishercreative
    Setting up the Archer Field PC to collect GPS data. Photo credit: Mark Fisher at http://www.fishercreative.com/Instagram: @fishercreative/via Juniper.

    After a 35-day journey, Tyson and the team successfully summited Gamlang Razi, with the Archer Field PC in hand. After collecting GPS data at the top, the data was sent via satellite phone to Juniper Systems for analysis. After post-processing the data against terrestrial base stations in Lhasa, Tibet, and confirming the results with Effigis in Montreal, Canada, Juniper Systems concluded that the elevation of Gamlang Razi was 5,870 meters, ±2 meters. This suggests that Gamlang Razi is taller than nearby Hkakabo Razi by approximately 112 meters and should be considered Southeast Asia’s new highest peak.

    However, there are many — particularly natives to Myanmar — who are not ready to accept changes to Hkakabo Razi’s original elevation measurement. This was made apparent in a letter Myanmar’s president, Thein Sein, wrote to Tyson and the team after their successful summit, congratulating them for summiting Southeast Asia’s second-tallest peak.

    Tyson remains firm in his assertion that Gamlang Razi is the country’s highest peak, but some have suggested that the debate may not be over until someone actually climbs Hkakabo Razi and measures it in person. Juniper Systems said they have a handheld for the job, should that time come.

    The expedition team. Photo credit: Mark Fisher at http://www.fishercreative.com. Instagram: @fishercreative
    The expedition team. Photo credit: Mark Fisher at http://www.fishercreative.com. Instagram: @fishercreative/via Juniper.
  • Nautiz X1 Ultra-Rugged Smartphone Is Now Shipping

    Nautiz X1 Ultra-Rugged Smartphone Is Now Shipping

    The Nautiz X1.
    The Nautiz X1.

    Handheld Group, a manufacturer of rugged mobile computers, PDAs and smartphones, has started shipping the Nautiz X1. The Nautiz X1 is a rugged enterprise smartphone — it’s waterproof, dustproof, shock-resistant and can handle extreme temperatures, yet it’s also slim, lightweight and smartly designed for both work and play, the company said.

    The Nautiz X1 is now shipping to customers worldwide. Interest in Handheld’s ultra-rugged smartphone has been tremendous, and the first batches are completely sold out, the company said.

    The Nautiz X1 is part of the Nautiz product family of rugged and ultra-rugged PDAs and smartphones. It has an IP67 ingress protection rating, which means it’s fully dust- and waterproof and can withstand immersion in water, and it also meets stringent MIL-STD-810G military test standards for enduring humidity, vibration, shock and extreme high and low temperatures.

    “As a company specializing in rugged computers, we know our customers expect all our products to be built rugged from the inside out. The Nautiz X1 is no exception — it comes with the reliability and sturdiness of an ultra-rugged computer,” says Product Manager Johan Hed of Handheld Group. “People are increasingly using their smartphones all the time, everywhere, and they’re expecting mobility and connectivity anytime, anywhere, and in all environments and weather conditions. The Nautiz X1 ultra-rugged smartphone is a natural choice, as it’s built to survive these challenges.”

    “This is the toughest smartphone ever built,” said Jerker Hellström, CEO of Handheld Group. “We see a huge demand for truly rugged smartphones among field professionals and outdoor enthusiasts who want to be constantly connected. We’re excited to see the great response this product receives from the market.”

    The Nautiz X1 is slim and lightweight, weighing in at less than 180 grams (6.3 ounces). It has a 4-inch special sunlight-readable capacitive touchscreen and ultra-durable Gorilla Glass. It runs on a powerful 1 GHz dual-core processor and has 1 GB of RAM. It features Bluetooth, Wi-Fi, a compass, a professional u-blox GPS, and a 5-megapixel camera. The Nautiz X1 comes with Android 4.0 (Ice Cream Sandwich) or Windows Embedded Handheld 6.5 operating system, and runs on both GSM and CDMA networks. Multiple battery options enable a full day’s work in the most demanding environments.

  • Juniper Systems’ New Rugged Handheld Features 4.3-Inch Touchscreen

    Juniper Systems’ New Rugged Handheld Features 4.3-Inch Touchscreen

    Photo: Juniper Systems
    Photo: Juniper Systems

    Juniper Systems has announced the availability of a new rugged handheld, the Archer 2. With radical improvements over the first generation Archer, the Archer 2 promises better overall performance with an astonishingly bright display, an extra-long battery life, enhanced GPS capabilities, and rugged IP68 construction.

    Juniper Systems will be showcasing the Archer 2 at the Intergeo 2013 conference from October 8-10 in Essen, Germany.

    According to the announcement, the latest generation handheld incorporates several new technological advancements. Sporting a custom 4.3-inch Illumiview high-visibility display, the Archer 2’s screen brightness has been well received by reviewers. Its battery features a unique technology inspired by the technology used in hybrid car batteries to prevent excessive battery drainage in low temperatures. Referred to as Overtime Technology, this Archer 2 super battery will last 20 hours and up on one charge.

    The new device is the first Juniper Systems handheld to feature a capacitive touchscreen for improved response and ruggedness. The Archer 2 also includes a glove-friendly numeric keypad for rapid data entry, a feature which many Juniper Systems customers highly value. Like other Juniper Systems handhelds, the Archer 2 is built to very strict standards at its ISO 9001:2008-certified facility, having been tested to MIL-STD-810G and given a top IP68 rating for dust and water.

    Photo: Juniper Systems
    Photo: Juniper Systems

    “We have been looking forward to the release of the Archer 2 for some time,” said Rob Campbell, CEO at Juniper Systems. “We have taken special care in addressing the needs of customers in the design of the Archer 2. It is a product of utmost quality, and the excellent reviews we have received on our Archer 2 beta units have made us very optimistic that the Archer 2 is going to meet our customers’ needs exceptionally well.”

  • Handheld Ships New Version of Algiz 7 Tablet

    Handheld Group has announced the launch of the new version of its popular Algiz 7 rugged tablet computer. The updated Algiz 7 is considerably faster than its predecessor, with better storage capacity, improved security and quicker communication capabilities.

    According to the announcement, the ultra-rugged Algiz 7 tablet PC is small, light and fast, with multiple connectivity options and a wide range of functions, ideal for field workers demanding a super-durable product that is tough and powerful, yet light and easy to work with. The Algiz 7 meets stringent MIL-STD-810G military standards for withstanding humidity, vibrations, drops and extreme temperatures, and with its IP65 rating it keeps dust and water out as well.

    Algiz-7-handheld-tablet-facing-left-newThe new Algiz 7, which started shipping this week, features the following improvements from earlier versions:

    • A fast and powerful N2600 1.6 GHz Dual-Core Intel ATOM processor.
    • More memory, with 4 GB of DDR3 RAM.
    • Better storage, with a 128GB SSD SATA II with recovery partition.
    • Two full mPCIe slots for improved flexibility.
    • Ethernet 10/100/1000 (Gigabit).
    • Added data security with TPM chipset board (chip 1.2).
    • An updated version of the wireless Gobi 3000 technology for higher communications speed.
    • A 5-megapixel camera.
    • Antenna diversity (two antennas) for improved coverage.

    “We’ve made significant improvements to the new Algiz 7,” said Jerker Hellström, CEO of Handheld Group. “Better storage, a much faster processor, improved security, a better camera and better communications are some enhancements – and we’ve kept the price point the same as for the previous version of the Algiz 7. This product should remain the tablet of choice for anyone looking for portable, professional field performance.”

    The Algiz 7 weighs 1.1 kilograms and has a 7-inch widescreen touch display that features the new and unique MaxView technology, providing brightness in outdoor conditions — even direct sunlight. It runs the state-of-the-art Microsoft Windows 7 Ultimate operating system. GPS navigation functionality is fully built in.

    The Algiz 7 is specifically developed for use in tough environments in industries such as mining, geomatics, logistics, forestry, public transportation, construction, utilities, maintenance, military and security.

  • CHC Offers LT400HS GNSS Handheld

    CHC Offers LT400HS GNSS Handheld

    CHC
    The LT400HS GNSS by CHC.

    CHC today announced the availability of the LT400HS, a rugged 120-channel GPS+GLONASS handheld receiver designed to achieve sub-meter SBAS positioning to centimeter accuracy in RTK networks. The LT400HS is designed to be a cost-effective yet powerful GNSS device for survey, construction and GIS professionals.

    The LT400HS is designed for companies that have not yet invested in GNSS technology due to cost or occasional equipment use, such as earth-moving and landscape contractors, real estate developers, construction SMEs, agriculture irrigation companies, and utilities mapping companies.

    “The LT400HS GNSS handheld series is a compact, rugged, accurate and easy-to-use GNSS receiver to perform surveying and precision mapping tasks wherever RTK Network corrections are available,” said George Zhao, CEO of CHC. “The LT400HS offers unrivaled performance, an attractive price point filling the price performance gap that exists in the industry between GIS level collectors and professional RTK rovers such as our recently introduced X+ GNSS Series. ”

    The LT400HS Series features:

    • Professional 120-channel GNSS Engine – L1/L2 GPS + GLONASS supporting RTCM network RTK corrections and industry standard NMEA output.
    • 3.7” daylight readable transflective VGA touch screen.
    • Built-in GSM/GPRS phone with data transmission, Bluetooth and Wi-Fi connectivity.
    • Built-in 5 megapixel autofocus camera to capture assets information.

    It comes bundled with Carlson’s SurvCE software for survey and construction professionals, or DigiTerra Explorer Mobile GIS software  for accurate GIS field data collection and maintenance.

  • Trimble Expands Rugged Handhelds to Include Enhanced GPS

    Photo: Trimble

    Trimble introduced today new functionality and configuration options for its Juno T41 rugged handheld computer. In addition to a handheld computer and smartphone configuration, the series now includes enhanced, real-time 1-2 meter GPS accuracy and high-speed 1D/2D barcode imaging technology.

    The new configurations are in addition to the capabilities already available in Trimble’s Juno T41 handheld computer. All models are built to meet military-grade standards of ruggedness for drops, temperature, altitude, humidity extremes, vibration, chemical exposure and shock with either an IP65 or IP68 rating for water and dust.

    “The Juno T41 is truly a workhorse,” said Jim Sheldon, general manager of Trimble’s Mobile Computing Solutions Division. “We designed it for today’s worker who needs a functional field computer that is tougher than any consumer-grade device, while providing easy-to-use features and convenience that people have come to expect.”

    All Juno T41 handheld computers feature a 1 GHz processor and 512-MB RAM with either Android 4.1 or Microsoft WEHH 6.5 operating systems. Other standard features include an 8-MP integrated camera, multi-touch capacitive 4.3” sunlight-readable display and 9 PIN Serial and USB ports, all-day battery life and 2-4 meter GPS accuracy capability.

    The Juno T41 X configuration is designed to replace Bring Your Own Device (BYOD) smartphones with SMS text and 3.75 cellular data transfer capabilities on GSM networks worldwide.

    To increase real-time positional accuracy, the Juno T41 G configuration provides enhanced, 1-2 meter GPS acquisition capability and it can be combined with other Juno T41 configurations, including the smartphone or the 1D/2D Imager.

    The Juno T41 G supports the GPS L1 band and offers reliable performance in reduced signal environments. Workers who have to move from place to place to collect remote assets won’t have to waste time waiting for a system warm-up: the Juno T41 G tests at an average cold start of less than 38 seconds, and a warm start of less than 6 seconds. The G configuration handheld collects data in real-time at 1-2 meter accuracy, while also capturing Raw Data Output for post-processing applications. The Juno T41 G is designed to work with Satellite Based Augmentation Systems (SBAS), third-party Real-Time Networks (RTN), and corrections services from Trimble.

    Trimble Scan technology in the Juno T41 S reads a variety of traditional 1D barcodes as well as 2D matrix codes, and captures signatures and images. These features are customizable using the Trimble “Scan Agent” application. Enterprises can also use the Software Development Kit (SDK) to optimize applications to meet specific customer needs. Omni-directional reading capabilities along with high-motion tolerance allow for rapid, accurate scanning from virtually any angle or orientation from the handheld to the barcodes.

    With these additions, the Juno T41 rugged handheld series has a configuration that can meet a wide variety of business needs in a single rugged device, Trimble said. Users can mix and match the capabilities to create the Juno T41 that is right for their specific business needs: combine the X smartphone with barcode imaging in the Juno T41 XS; add enhanced GPS for the XG. Combine barcode imaging with enhanced GPS and smartphone capabilities in the XGS.

  • Trimble Juno T41: Rugged, Sturdy, and a Great Display

    I keep waiting for the cryptic phone call or emphatic email from Trimble that says, “You have had our evaluation units for over four months — when can we expect to see a review and when will you be returning our equipment?” Fortunately, Trimble is very understanding and would never make such a call or send such an email, I hope. The truth is Trimble sent me a T41 and Yuma 2 for review back when it was still snowing in the Rocky Mountains and I am still evaluating the units. You see that’s the rub with excellent equipment — it is a pleasure to review GPS equipment that exceeds all expectations, and frankly, it is difficult to send it back because there is always one more project, one more test or one more application that needs to be run. Fortunately the Trimble PNT equipment (position, navigation and timing) has never been found wanting. So here finally is the T41 review that so many of you have requested.

    First, however, for those of you who are of a similar age to yours truly — and let’s just say it hopefully relates to a certain level of maturity and in my case familiarity with GPS since 1978 — I just can’t see the designation T41 without thinking of: (1) a basic USAF pilot and navigation training aircraft once flown at Mather Air Force Base in California and one I still see every day at the Unites States Air Force Academy and flying over my home on a regular basis, and (2) the first successful commercial GPS unit built by my think-tank colleague Philip Ward at Texas Instruments, designated the T1-4100. I have no idea if Trimble was aware of these associations when naming conventions were considered for the T41, but for many of us seniors the associations certainly exist. That is not a bad thing — it probably even extends to goodwill in a business sense, if you understand that jargon. But, as usual, I digress!

    BLUF (Bottom Line Up Front)

    As loyal readers are aware, I never give a product a bad review. That is not to say I do not receive my share of simply “bad” GPS equipment to review. I just refuse to take the time to pen a bad review — my philosophy being, why should I take the time to write and why should you take the time to read about something you can’t or won’t use? There are enough “good,” even exceptional, GPS devices out there today that deserve to be written about — so let’s just skip the bad ones and save us all some grief and deflated expectations. So the very fact that I am writing about the Trimble T41 means that it has passed all my tests for ruggedness and usefulness. In fact (I checked the figures with my review logs for the past seven years), for every 20 GPS devices I receive, I only review one on average. This month it is the Trimble JunoT41/5 X-Model with gray pin striping and an IP68 ruggedness rating, and you will see why that level of model detail is important shortly.

    Who Matters as Much as What

    Before I get into the technical aspects of the T41, let’s consider for a moment who would want to use this unit. Without a doubt, it is perfect for warfighters and first responders or I probably would not write about it, but it is also perfect for anyone that needs a rugged handheld computer with embedded GPS running either the Windows or Android operating system (OS). The touchscreen display covers about the same real estate as the new iPhone 5 but the T41 is slightly larger, heavier, thicker and, it almost goes without saying, incredibly rugged. I guess that is why I have received several letters from T41 users that use it on horseback.

    Now, while I perceive the equine GPS market to be a niche market, another one of my think-tank colleague, the Honorable Jim Geringer, who ran the great state of Wyoming from 1995 to 2003, has mentioned several times in passing, and I mistakenly thought jokingly, ranchers using GPS on horseback. Now that I think about it and read some of my email from Colorado, Wyoming, and Montana ranchers, it makes sense. Think about navigating thousands of acres of ranch land that in some cases all looks the same, looking for lost cattle or damaged fences. Think about wanting to mark the spot where cattle or damaged fences were found and then being able to quickly communicate that information to someone who could help, and then just as quickly navigate back to civilization, even in a blizzard. The fact is my correspondence from several ranchers tells me that GPS has become indispensible – and not just any GPS, but a reliable, accurate and rugged GPS that has a long battery life, comes with a built-in camera, and the option for a solar charger, and of course has embedded communication capabilities. Sounds a great deal like the T41 – I think you will agree.

     

    Basics and Specifications

    The Juno T41/5 approximates a slightly larger iPhone 5 in size, but one with an extremely rugged case. The case  makes it bigger and heavier, but at the same time much more useable in all weather conditions, to include snow, ice, water, dust, all of which I personally tested for, and I suspect it will survive being dropped in horse manure, although I will admit this is one test that I have not personally performed. I will graciously defer to my equine mounted readers when it comes to performing this particular test. Can you say rubber gloves, Purell Hand Sanitizer and Fabreze?

    Trimble Juno T41/5 Specifications

    FEATURES

    • Processor: 800 MHz or 1 GHz, Texas Instruments DM3730
    • RAM: 256 MB or 512 MB
    • Flash Storage: 8 GB or 16 GB
    • 4.3” WVGA sunlight-readable Gorilla® Glass display
    • Light sensor to auto-adjust display brightness
    • Capacitive multi-touch interface
    • Integrated 3.75G cellular data, text and voice capability
    • 8 megapixel camera with geo-tagging and dual LED flash
    • Bluetooth 2.1 with Enhanced Data Rate
    • Wi-Fi (802.11 b/g/n)
    • GPS Receiver, 2-4 meter accuracy (WAAS/SBAS Capable)
    • MCX port for optional External GPS Antenna
    • Electronic Compass
    • Accelerometer
    • Robust Custom Port with USB 2.0 Full Speed Protocol
    • Conversion Cables available for 9-pin Serial or USB host
    • Micro SD memory card slot (supports SDHC up to 32 GB)
    • Integrated speaker and microphone
    • 3.5 mm Headset Jack with Audio Capability

    OPERATING SYSTEMS

    • Windows Embedded Handheld 6.5
    • Android 4.1 – which is faster, has better battery usage, more secure and with better developer specifications than the older version 2.3.4
    • Language Support: Chinese (Simplified), English, French, German, Italian, Japanese, Korean, Portuguese, Russian or Spanish

    Windows Embedded Handheld 6.5

    Standard Software:

    • Trimble SatViewer (GPS interface application)
    • Trimble CellStart (WWAN configuration application)
    • Microsoft Office Mobile 2010 (Word Mobile, Excel Mobile, PowerPoint Mobile, Outlook Mobile)
    • Internet Explorer Mobile 6
    • Microsoft My Phone with SMS Text Messaging
    • Camera Control Application
    • Flashlight Control Mode Application
    • Calculator
    • Calendar
    • Microsoft Pictures and Videos
    • Windows Media Player
    • Windows Live Messenger
    • Microsoft Task Manager and Notes
    • Adobe Reader LE 2.5

    Android 4.1 Advanced Software:

    • Trimble Outdoors Navigator
    • Email
    • Phone and SMS Text Messaging
    • Picture and Video Gallery
    • Multimedia Player
    • Web Browser
    • Camera Control Application
    • Flashlight Mode Control Application

    Application Developer Support:

    • Software Developer Kit with Documentation for WEH 6.5
    • Software Developer Kit with Documentation for Android 4.1

    STANDARD ACCESSORIES

    • International AC Charging Kit
    • T412 USB Cable
    • Wrist Strap
    • Ultra Clear Screen Protectors (qty-2) Kit
    • Quick Start Kit

    OPTIONAL ACCESSORIES

    • 9-pin Serial Adapter
    • USB Host Adapter
    • Capacitive Stylus with Tether
    • External Battery Pack
    • Port Cover
    • Ultra Clear Screen Protectors (qty-10) Kit
    • Anti-reflective Screen Protectors (qty-2) Kit
    • Vehicle Charging Kit
    • Capacitive Touch Screen Gloves
    • Trimble Headset
    • External GPS Antenna

    ENVIRONMENTAL SPECIFICATIONS

    Water: Survives immersion at 3.3 feet (1 meter) for two hours (gray models), IEC-60529 IPx8. Survives driving rain & water spray (yellow models), IEC-60529 IPx5, water jet 12.5 mm diam @ 2.5-3 m.
    Dust: Protected against dust, IEC-60529 IP6x, dust chamber with under-pressure
    Drops: Survives multiple drops of 4 ft. (1.22 m), MIL-STD-810G, Method 516.6, Procedure IV, Transit Drop
    Operating Temperature: -22 ºF to 144 ºF (-30 C to 60 C), MIL-STD-810G, Method 502.5, Procedure I, II, III (Low Temp Operating -30 C); Method 501.5, Procedure I & II (High Temp Operating 60 C)
    Storage Temperature: -40 ºF to 158 ºF (-40 C to 70 C), MIL-STD-810G, Method 502.5, Procedure I, II, III (Low Temp Storage -40 C); Method 501.5, Procedure I & II (High Temp Storage 70 C)
    Temperature Shock: Cycles between -22 ºF and 144 ºF (-30 C and 60 C), MIL-STD-810G, Method 503.5, Procedure I-C
    Humidity: 90% relative humidity with temperatures between 22 ºF and 144 ºF (30 C and 60 C), MIL-STD- 810G, Method 507.5, Procedure II
    Altitude: 15,000 ft (4,572 m) at 73 °F (23 C) to 40,000 ft (12,192 m) at -22 °F (-30 C), MIL-STD-810G, Method 500.5, Procedure I, II & III
    Vibration: General minimum integrity and loose cargo tests, MIL-STD-810G, Method 514.6, Procedure I & II, Category 5
    Solar Exposure: Survives prolonged UVB exposure, MIL-STD- 810G, Method 505.5, Procedure II
    Chemical Exposure: Resistant to mild alkaline and acid cleaning solutions, fuel hydrocarbons, alcohols and common vehicle and factory machine lubricants.

    PHYSICAL

    Size. . . . . . . . . .6.1 in . 3.2 in . .9 in (15.5 cm x 8.2 cm x 2.5 cm)
    Weight. . . . . . . . . . . . . . . . . . . . 13.5 oz (.4 kg), including battery
    Color . . . . . . . . . . . . . . . . . . .Black with Yellow or Black with Gray (Color does make a difference; see Product Models below.)

    ELECTRICAL

    Processor: 800 MHz or 1 GHz, Texas Instruments DM3730
    Memory: 256 MB or 512 MB
    Storage: 8 GB or 16 GB, non-volatile
    Expansion: micro SD card slot, SIM card slot
    Display: 4.3 in (10.9 cm), 480 x 800 pixel, WVGA TFT
    Battery: 3.7 V, 3.3 Ah, 12.2 Wh, Lithium-ion polymer
    I/O: 3.5mm audio jack; Custom Port that supports USB 2.0 Host, USB Client, 9-pin Serial and 5.6 V (5.0 V to 5.9 V) DC input power
    GPS Receiver: 2-4 m accuracy with WAAS/SBAS correction; MCX port for optional external antenna
    Radios: Bluetooth 2.1 +EDR; Wi-Fi 802.11 b/g/n
    WWAN radios: UMTS / HSPA+, GSM / GPRS/ EDGE; UMTS Bands (WCDMA/FDD): 800, 850, 1900, AWS and 2100 MHz; GSM Bands: 850, 900, 1800, 1900 MHz

    CERTIFICATIONS

    FCC, CE, R&TTE, IC (Canada), C-tick, GCF compliant, RoHS compliant, Section 508 compliant, PTCRB, SAR, AT&T network compatible, Wi-Fi Alliance certified, CCX, USB 2.0 Full Speed, MIL-STD-810G, IP65/IP68, MIL-STD-461E.

    PRODUCT MODELS

    Color

    IP Rating

    		Processor          RAM       Storage

         WWAN

          GPS

    Camera

    M

    Gray

    IP68

    		 800 MHz

    256 MB

    8 GB

    2-4 m

    C

    Yellow

    IP65

    800 MHz

    256 MB

    8 GB

    2-4 m

    8 MP

    C

    Gray

    IP68

    800 MHz

    256 MB

    8 GB

    2-4 m

    8 MP

    X

    Yellow

    IP65

    		 1 GHz

    512 MB

    16 GB

    3.75G

    2-4 m

    8 MP
        X

    Gray

    IP68

    		 1 GHz

    512 MB

    16 GB

    3.75G

    2-4 m

    8 MP

    The M model features a GPS receiver, 800-MHz processor, 256 MB RAM, 8-GB storage and is available in gray with IP68 rating. The C model adds an 8-megapixel camera with dual LED flash, Bluetooth and Wi-Fi to the M model feature set and is available in yellow with IP65 rating or gray with IP68 rating. The X model adds penta-band GSM cellular phone and data capability to the features of the C model, has a 1 GHz processor, 512 MB RAM and 16 GB storage and is available in yellow with IP65 rating or gray with IP68 rating.

     

    Key Features

    WVGA Sunlight-Readable Gorilla Glass Display. I found the 4.3-inch color display to be readable in all lighting conditions. From very low light to bright sunlight, even sun reflecting off snow, which I have found to be the most difficult condition. The Gorilla glass is aptly named, as its unique composition allows for a deep layer of high compressive stress, which is created through an ion-exchange process during the manufacturing process by Corning Glass. This compression acts as a sort of “armor,” making the glass exceptionally tough and durable, and yet the display is crystal clear.

    Multi-Touch User Interface with Capacitive Stylus Compatibility. Now, I am well aware that one of my heroes, Steve Jobs, once said that “…if you are required to use a stylus on a computer, you have lost your advantage.” However, there are just simply times, especially with GIS (geographical information systems) and map displays, when something smaller and more accurate than the end of your little finger is called for, and on the T41 you have your choice. The display also functions with a capacitive glove, which you can purchase from Trimble as an option or from many other vendors. The bottom line is the 4.3-inch high resolution screen is very clear, and as Trimble says “…the multi-touch support allows complex selections and controlled zoom to optimize the user experience with maps and detailed information.”

    3.75G Cellular Data, Text and Voice Capability. A GPS or PNT device today without communication capabilities is a device that simply cannot compete, in the marketplace or in any situational awareness competition/situation you would care to name. Communication capabilities allow any PNT device to make use of PNT augmentation available over the Internet and through private networks such as the Trimble VRS or Virtual Reference Station and the John Deere StarFire network. Indeed, the Trimble VRS network enables precise, real-time GNSS positioning through the distribution of correction data. The global networks provide a highly reliable method for surveyors, warfighters, and other geospatial and PNT professionals to work faster and achieve accurate GNSS results, as precise as three centimeters in real time, for a variety of positioning applications including geodetic and cadastral surveying, road and bridge construction, mapping, agriculture, earthquake and tectonic plate movement monitoring, warfighter applications, and scientific research, as well as other high-accuracy positioning applications. Trimble’s VRS networks use RTK (real-time kinematic) solutions that, when combined with the Trimble RTKNet software, provide high-accuracy RTK GNSS positioning for wide areas. A VRS network improves productivity while reducing complexity and the global footprint for warfighters, by eliminating the need to set up a base station.

    A VRS network is made up of the latest in GNSS hardware, modeling, and networking software, plus communications interfacing. Once set up, RTK roving receivers in the field or AOR (Area of Responsibility) have access to real-time network modeled corrections. In the field you also have the reassurance of the built-in integrity monitoring system that warns if there are any problems with the data.

    Today Trimble’s VRS networks are considered an integral tool for providing fast, high-precision, wide area positioning for warfighters and first responders in countries around the world. The Trimble VRS and John Deere RTK StarFire systems also give the device, especially in the case of a warfighter, additional situational awareness, along with the capability to act not only as a receiver, but as a networked device, a sensor, and a monitoring station. The T41 handheld has voice, SMS text, and 3.75G cellular data transfer capabilities on GSM cellular networks worldwide. You can upload and download data from the cloud using Wi-Fi or WWAN connections. The 8-megapixel camera can be set to automatically include time and location metadata from the GPS receiver. The T41 not only has the ability to increase the individual warfighter’s situational awareness but to increase the SA for all users on the network and in the AOR as well.

    Bluetooth 2.1 + EDR and Wi-Fi b/g/n. You may well wonder why I have listed this as a separate feature when it could just be included under communications. I have listed it separately because of the Army’s laudable Puck and Hub endeavors. (See my GPS World May column for the detailed briefing). Without going into too much detail, the Puck and Hub are sorely needed PNT receivers with augmentation capabilities to include Wi-Fi, inertial, and CSAC (Chip Scale Atomic Clocks) that are hopefully multi-GNSS signal-capable. The only feature both devices lack is a suitable and rugged display mechanism. This is where the Bluetooth, Wi-Fi and Android capabilities of the T41 come into play. The Army seems, for the time being, to have mysteriously settled on the Android OS as a basic capability and building block that, when combined with Bluetooth and Wi-Fi, make the T41 the perfect display device. I cannot say much more in this venue, but take my word for it when I say I have never tested another purpose-built rugged PNT-capable device more suitable for the Army’s Puck and Hub applications. Suffice it to say that Software Developer Kits (SDK) for both Android and Windows OS enable custom application software to easily interface, wired and wirelessly, with the many built-in sensors, radios, and data ports on the T41. For instance, a secured Bluetooth signal embodied in the 2.1 and EDR (Enhanced Data Rate) specifications would allow users to transfer data to and from the Puck or Hub while maintaining voice or SMS connectivity with other networked users and commanders, who are able to make faster and hopefully better decisions based on real-time information.

    GPS Receiver with 2-4 Meter Accuracy. At its core, the T41 is indeed a GPS receiver that is SBAS (Satellite Based Augmentation System) capable, which means it can take advantage of the augmentation and integrity signals from the U.S. WAAS (Wide Area Augmentation System) and the European EGNOS (European Geostationary Navigation Overlay Service). However, when combined with the device’s prodigious communications capabilities — Wi-Fi, Bluetooth, and the Internet — the device becomes a truly multi-GNSS capable receiver with ports that can, hopefully in the future, accommodate such devices as the CGM (common GPS module) that includes SAASM (Selective Availability Anti-Spoofing Module) and M-Code capabilities. It also includes the Trimble and John Deere networks as mentioned earlier, and this gives the device the capability of 3-centimeter RTK accuracy. Think about it: I have never heard a warfighter say, “I need a less capable, less versatile and less accurate device.”

    Accelerometer and Electronic Compass. Ask a warfighter if he needs an accelerometer, and he might scratch his head, but ask about an electronic compass and the answer is an emphatic yes. Think map reading, orienteering, and getting out of Dodge fast. Think urban canyons or vast, featureless deserts where a warfighter has no intrinsic idea which way is which. That’s when you need a compass, but an accelerometer —as any iPhone aficionado will tell you — is almost indispensible. The accelerometer detects physical movement and is primarily used for motion sensing and tilt controls. It also detects vibration and acceleration, allowing the T41 to detect the distance and speed it has moved in three-dimensional space. Combined with the right software, it may prove to be a key component of determining position, distance, and speed in challenged environments.

    Nine-Pin Serial and Power Port. The last feature I will highlight about the T41 is the nine-pin serial data and power port. The serial cable is secured to the T41 for power and data by a secure data/power cable that is attached with thumb screws on one end and by a USB connector on the other. In rugged environments it provides both a secure means of power from multiple sources and a universal data connector, neither of which are going to work their way loose and leave you with a dead battery or no data. It is almost legacy in design, but innovative in that one multi-function cable provides power and serial data inputs. I used it for both power and data and it worked flawlessly — plus I never had to worry about a loose or lost connection.

    Bottom Line

    The bottom line is I highly recommend the Trimble Juno T41 in any of its configurations, which are many. It is rugged to a fault, sturdy and has one of the best displays I have ever seen. I reviewed the Windows OS version but have no doubt the Android OS works equally well, and that is, after all, the OS on which the Army is pinning its future plans and hopes for PNT devices. However, as I said in the beginning, I do not want to limit this device to the warfighter. It certainly fills the bill there, but it also competes well and indeed exceeds the capabilities of many similar devices that lack the built-in ruggedness and the Trimble reputation for consistently producing superior devices. This review is already 3,500 words, and I could easily write another 5,000 words, but hopefully you get the point. If you need a very rugged phone, a computer in a handheld form factor with embedded 3-cm level GPS capabilities that sports a crystal clear display and is a device with huge growth potential, then the T41 is exactly what you need. I know of nothing better in the marketplace today. It is really going to be tough to send this one back.

    Now I wonder just how long I can keep it before that dreaded emphatic phone call or cryptic email…

    Until next time, happy navigating and give the T41 a test-drive.

    Editor’s note: Readers interested in owning a Juno T41 can enter a GPS World drawing by filling out our State of the Industry Survey.

     

  • Every Computer a Mobile Computer

    Every Computer a Mobile Computer

    Fleming-opener
    Photo: Lee Ann Fleming

    Precise Location Moves with the Demands of Business

    Organizations across business and public sectors, and including the military, now expect a high degree and broad range of functionality in the palms of workers’ hands, wherever those workers may go, in any kind of hazardous, chaotic, demanding environment. Requirements for location accuracy rise consistently across the board. In the future — in other words, now — developers will be asked to write mobile software applications first, and desktop applications second.

    By Lee Ann Fleming

    It seems so long ago. In 1972, Hewlett-Packard engineers developed the HP-35, a scientific calculator that many claim was the world’s first handheld computer. Today, a calculator represents only a tiny fraction of the functionality the business world expects from any one of dozens of models of powerful handheld computers that travel in the billions to job sites around the globe.

    In 1989, Frito-Lay introduced a brick-sized handheld computer for real-time inventory management on its factory floors. The initiative helped make the company the most profitable segment of its parent Pepsico’s empire. By 1999 the company was also supplying handheld computers to its sales staff and claiming a $4 million annual return-on-investment from improved billing efficiencies alone.

    So, the idea of businesses using handheld computers in the field is not new by any means.

    What is new this decade is “a massive shift in the way we use the technology,” according to David Krebs, president of VDC Research. “Six years ago, the introduction of the Apple iPhone was a defining moment for the mobile computing industry. It introduced a more intuitive user interface and a multi-touch capacitive interface that was a complete revelation.”

    Fleming-capacitive-gloves
    Capacitive or Touchscreen gloves made with conductive material enable the wearer’s natural electric capacitance to operate capacitive touchscreens without removing protective work gloves. Photo: Lee Ann Fleming

    The iPhone changed forever the level of expectation of performance and usability for such devices. Widespread consumer adoption of smartphones and tablets has led workers to expect more from their work equipment, and if they don’t find it, they bring their own devices into the mix — and dare their employers to say no. Whether they are Apple users or Android or Microsoft Windows, the original innovation introduced by Steve Jobs has so altered the landscape of what is acceptable in a handheld computer in terms of ease of use that the world will never look back.

    Today experts estimate that a full third of the global workplace is “mobile” — that’s more than a billion people daily using small handheld computers, whether tablets or notebooks or smartphones, for work.

    Data shows that the average smartphone user reaches for his or her device 150 times per day — and only 22 of those occasions are to make or take a phone call. We now rely on smartphones as multi-function devices to manage our calendars, create memos, check email, find addresses, take and share photographs, monitor children, even store electronic boarding passes for airplane flights. Tablet computers allow us to stream videos, fill in forms, write documents, and view dashboards of information. The handheld form factors’ only limitations seem to be the lack of sufficient miniaturization to fit everything in, and the delicacy of many models that can be destroyed by a single drop onto a hard surface.

    As the cost of ownership has plummeted and the quality of features and functionality has improved, mobile computing has become the inevitable rule, no longer the notable exception. Businesses need mobile computers to remain competitive, just as they needed the new telephone device 100 years ago.

    BYOD Forces Enterprise’s Hand

    The phenomenon of “bring your own device” (BYOD) finds individual workers integrating their personal handhelds, both smartphones and tablets, into their daily workflow. Businesses recognize that employees are more connected, more efficient, and more invested in their work when they are allowed to use their own equipment. Consequently, the problem of data security in an environment where workers walk around 24/7 with mobile devices containing sensitive intellectual property has grown exponentially. The trade-off of higher productivity means companies are looking for security solutions. Meanwhile, developers rush to provide new applications for business, feeding more deployment by enterprise organizations in an ever-widening circle of inevitability.

    Broadband and voice carriers likewise hasten to bundle their services in handheld form factors with 3G or better data capability, setting up whole divisions to package, upgrade, manage, and monitor enterprise mobile deployments. Third-party device management has also increased acceptance in the wider enterprise world, where IT departments have been unwilling to take on the security risks internally.

    Fleming-south-pole
    Ice Cube Project at the South Pole records the interactions of a nearly massless sub-atomic particle called the neutrino (photo courtesy University of Wisconsin).

    GPS Data Acquisition

    Some handheld configurations now include high-accuracy GPS data acquisition and other specialized functions, either as integrated features or through add-on accessories. Functionality is also being added through apps such as bar-code scanning imagery programs that can bring a crucial business process into a single device. Geotagged high-resolution photographs that formerly might have been considered out of reach because of the cost of a special device can now routinely be added to workflows via handhelds’ built-in features.

    For examples of high-accuracy GPS use in handheld computers, see “In the Field” sidebar below.

    For design considerations affecting GPS integration into rugged handheld computers, see “GPS Product Design Challenges” sidebar below.

    For an explanation of what makes a handheld rugged, see “Mobile = Vulnerable” sidebar below.

    Functionality and Accessories

    Mobile computing has barely tapped the springs of creativity when it comes to add-ons and new integrated features that will arrive over the next few years.

    Manufacturers recognize that accessories make a big difference to enterprise customers and are bringing out more ways to ease adoption:

    • Smart office docks that allow for connections to larger monitors for presentations to co-workers,
    • capacitive gloves that protect workers’ hands while still enabling manipulation of a display screen outdoors,
    • mounts and connective docks for in-vehicle use.

    These have all aided workers’ efficiency and productivity and increased the likelihood of mobile computing adoption.

    Not all is roses. For enterprise, connective office and vehicle docks provide tremendous benefit and can make the difference to successful deployment, but they can also present problems for full integration and customer service.

    The direct monitoring of environmental conditions or the condition of key components (pipes, pumps, valves and so on), often in relatively inaccessible locations, is commonplace now. Ruggedized handheld devices grant technicians access to the full repository of historical and technical information when they conduct manual inspections or perform repairs. As the workforce demographic shifts from baby-boomer employees who have years of institutional (and location) memory in their heads to younger employees who are comfortable with handheld technology providing background knowledge and tutorials in the field, ruggedized computers with large memory and Internet connectivity become more and more valuable.

    Gaps and Third-Party Enablers

    While third-party device management, along with increased availability of specialized functionality, more accessories for ease of use, and choices in operating systems are clearly moving enterprise equipment into the mobile realm, major functionality and application gaps remain. Innovative companies are studying the business-to-business marketplace looking for ways to make adoption of mobile even more business-friendly.

    Most of the large third-party organizations such as carriers do not have the intimate market knowledge of other industry verticals to ensure they provide truly best-in-class service. Often the equipment they push into their enterprise clients’ hands is an OEM partner’s that may or may not be ideal for the actual vertical.

    Meanwhile, deployments designed around a specialized software solution or by a contract system integrator might be so specific as to be non-upgradable as operating systems (OS) and equipment innovate. Enterprise still feels itself groping in the dark in many areas when it comes to outsourcing mobile computing needs.

    Operating Systems

    One of the biggest concerns in linking mobile workers to the enterprise’s universe of data and communications is today’s plethora of operating systems that allow developers and IT leadership to connect legacy and proprietary programs into their mobile deployments. The most common OS options in the handheld world are Apple iOS, Android, and Microsoft Embedded Handheld. While a few others jockey for position, most major manufacturers’ field products use at least one, and often two, of the top three. Software development kits (SDKs) and customer service are provided so internal IT departments can easily implement applications.

    Thirty years ago, the Microsoft platform owned the enterprise market and Apple was fervently embraced by so-called anti-corporate creative types. Those days might live on in some branding memory, but the reality is that Apple has entered mainstream business in the hands of its iPhone and iPad devotees. In contrast, enterprise IT and developers are justifiably upset at Microsoft’s lack of a clear mobile platform strategy. Meanwhile, rushing from behind to take top spot in mobile computing OS deployment, Google’s Android made a smart decision to employ open-source Linux-based programming as its base, giving it a decided advantage in the mobile ecosystem. The first Android cellular phone was sold in 2008; more than 750 million new Android activations were recorded by the end of 2012.

    It’s the rare end-user who will argue over which OS platform powers the software on their company-provided mobile device, except when they want to use a specific consumer-oriented app. But they do care, and care deeply, about how intuitive they find the user interface on their computer equipment, mobile or not.

    Do their applications run smoothly? They’d better, or enterprise faces the problem of expensive deployments with workers refusing to use the solution. Over the past couple of decades, so many enterprise IT investments have failed for just this reason that business is gun-shy of any product that doesn’t provide proof that its applications are bug-free and user-friendly. Because mobile computing includes the added complexity of workers being physically removed from company IT support, this issue becomes even more important.

    Today, according to VDC Research, 63 percent of software developers (enterprise and consumer) develop their mobile-oriented applications on the Android platform, while 73 percent create apps for Apple iOS. All other operating systems have significantly lower developers’ mindshare. Some observers see Android eventually winning the tussle to become the go-to OS for mission-critical enterprise deployments.

    Android still has to wrestle with the impression by enterprise that it won’t sit still long enough. Its constant upgrades for consumer devices constitute a liability for business, as enterprise developers must tweak their applications to work on the next upgrade, and the next, and the next. Enterprise would like to see a stable platform for at least a year at a time.

    Regardless of which platform dominates, in the future — in other words, now — developers will be asked to write mobile software applications first, and desktop applications second.

    Business Concerns

    Handheld computers are moving inexorably from consumer use into full-time, ubiquitous business operation. This is the opposite direction of the desktop computer, which moved from offices into homes during the 1980s. While businesses and governments at all levels accept the reality of BYOD and profit from the increased productivity of workers on mobile devices, they continue to worry about major limitations for enterprise-centric use found in the current leading platforms, including:

    • Privacy Compliance. Companies operating under Sarbanes Oxley (SOX), the Health Insurance Portability and Accountability Act (HIPAA), and other privacy regulations have a nightmare built in to the current reality of employees walking around with data that should be secure.
    • Wi-Fi and VPN. The mobile computer is built for travel, but connections are interrupted, can be unsecure, and virtual private network (VPN) firewalls can only do so much in a handheld environment.
    • Legacy Systems and Support. Small and mid-size businesses don’t have the IT support to truly connect the mobile universe with their PC networks. Also, solution providers selling mobile to enterprise are spotty at best with customer service, SDK support, and help-desk offerings. Considering the common problems of file transfers, managing OS version control, and cloud-based file sharing across a universe of different form-factor devices (tablets, smartphones, specialized handhelds for different industries), it’s no wonder IT departments feel hard-pressed.
    • Maintenance and Warranties. The mobile computing universe, with its retail consumer market-base willing to discard old versions of hardware (cell phones, PDAs, tablets) in a few short months, has not developed a quality set of warranties or maintenance plans designed to assure enterprise customers that their equipment investment will provide stability and return on investment.
    • Connectivity / I/O. Consumer handhelds are not constructed to interact with the many other machines that business mobile computers must drive: printers, monitors, desktops, and so on. Some require serial connections as well as USB.

    Lee Ann Fleming is a communications manager for Trimble Mobile Computing Solutions.

    CenturyLink in Eugene, Oregon, aided with photography for this article, using the Trimble Juno T1 and Yuma 2 rugged tablet computers.

    Fleming_Juno5_Forestry_Trimble_8885-30
    Photo: Lee Ann Fleming

    In the Field

    Mobile GPS acquisition is growing all over the map.

    Land Management. Many agencies and organizations now find wetlands management among their responsibilities. Municipalities encompassing marshlands must look at changes over time. They don’t always need survey-grade maps of these areas but they do need to know “What are the variations in these 100 points that we’re viewing?” They want map information, photographs, data on animal life, and more.

    Forestry management includes the same elements, plus it has a particular problem with fire changing the landscape. In heavily forested parts of the world, handhelds with GPS capability are tremendously helpful in lessening the “pack-in” weight and safety potential for staff assessing damage after destructive fires that may fundamentally alter hundreds, or even thousands, of acres.

    Seismic Instrumentation. Precise scientific data is logged with sensitive equipment housed in small form factors. Annual or more frequent data collection must re-find the collection boxes in overgrown, remote locations. Similar scientific work in many fields requires finding machinery placed in out-of-the-way sites, often by different people than the ones who placed them.

    Ocean Buoys. Placement and monitoring is all done with GPS now, because the buoys are always shifting, and yet their location must be exact because of sonar connectibility requirements. Rugged handhelds are best for marine work because they can withstand the salt water spray and, at sufficiently high ingress protection levels, even a dunk in salt water. Smaller boats can be used for buoy work because today’s handhelds measure accuracy to a level that 10 years ago was impossible. In large rivers this is also becoming more common, as channels requiring dredging or measuring move regularly.

    Insurance. Adjusters use GPS after such disasters as the Oklahoma tornado to determine debris fields and get claims filed. This year’s Colorado wildfire destroyed 509 homes and reduced more than 22 square miles of forested acreage to ash. Mobile GPS will play a key role in assessment, re-mapping, replanting and rebuilding.

    Evacuation Planning. When hazardous materials go airborne — as in a plant explosion ­— public safety personnel must accurately predict where the cloud will travel: height, width, direction. HazMat-suited personnel equipped with rugged handhelds monitor the plume and use their GIS solution to make accurate predictions.

    Incident Command. Software enabling interoperability, staff positioning, and navigation in volatile circumstances, and communication across departments and agencies to share floorplans, organization charts, and photographs, arrives on the scene aboard rugged handhelds that can take a pounding in uncertain conditions.Civilian police and firefighting organizations increasingly turn to military-designed solutions on handhelds to enforce security.

    Mobile Inventory Management. Companies with large fleets equip delivery trucks with handhelds, so drivers report in real time exactly where they are, what’s been delivered, and when. Changes can be made on the fly.

    Fleming_ruggend
    Photo: Lee Ann Fleming

    GPS Product Design Challenges

    Small, low-cost GPS devices have proliferated in the marketplace, and the drivers and applications that support them at a consumer level are available to make GPS acquisition seem cheap and easy. Where it starts crossing over into an area of challenge is how to put a more accurate, professional-grade GPS into a device while meeting demands to keep it less expensive, sleeker, and smaller for the user.

    According to Trimble Mobile Computing Solutions director of engineering Cary Keist, “If you want to improve performance better than 2–4 meters, not just in open sky but especially under multi-path, you have to invest in a good antenna — an antenna larger than anything that’s going to fit into a sleek, thin phone. And it will have to be pointed to the sky, and it will have to have a good ground plane. That all takes up room. There’s no way around that fact.”

    “We’re seeing competitor products that are rugged and claim GPS capability and are thin, but they only offer 10-meter capability, which isn’t good enough, or 2–4 meters in open sky, but as soon as you walk up to a building your accuracy is destroyed.”

    Alternatively, Keist explained, you end up with products that have a big snout. “Some have gone the opposite direction with a big antenna that makes it bulky. We’ve tried to split the difference. We’re introducing a Juno T41 handheld with a small extended snout for more advanced, 1–2 meter performance even in multi-path environments. Not the same accuracy as the GeoExplorer 6000, but way better than many others.”

    Tablets. The tablet form factor has a double problem in housing professional-level accuracy antennas:  an antenna has to point to the sky, in addition to being of sufficient size.

    Sky-pointing requires a tablet to be vertical, but many applications designed for the tablet require it to be flat for work. So far, this has meant that tablets have been fitted with appendages that can rise at an angle. New technologies are under investigation, but none has appeared on the market yet.

    Eventually antennas will shrink, along with every other technology that prizes miniaturization, but it comes down to physics. GPS signals are weak to begin with.

    “Given the satellite system and the current signals, the larger the area of the antenna, the more reliable your signal is going to be. There’s no easy path right now to have an antenna be very tiny and very accurate. Innovation over the next few years will try to find clever ways to put as much antenna as you can in as small a form factor as is possible,” Keist said.

    Fragility. GPS receivers and antennas are not especially delicate; they can be made to handle temperature extremes, shock, and vibration. Where it does get a difficult for the makers of rugged handhelds is that as products become larger and weigh more, greater countermeasures are required to keep them rugged. The heavier the object is, the more damage it will sustain when dropped onto concrete.

    Manufacturers add plastic casings around the handheld form to cushion the shock of the landing. That in turn adds more weight. It’s like rocket science: for every added pound of weight on the rocket you have to add a half pound of rocket fuel, then you have to add more rocket fuel to boost the half pound of rocket fuel weight that was added to push the rocket, and so on.

    In building rugged handhelds that are dropped, manufacturers calculate this in reverse.

    “GPS receivers are going to be relatively heavy in comparison to any consumer device. Antennas are large, with an awkward shape, so to have them survive the drop and vibration tests, you have to do a good job of packaging within a rugged device housing to keep it as small as you can without adding mass or building a shape that would be susceptible to breaking.” Keist said. “You have to invest in clever design and modeling and trying to keep the cost low. So it’s not technically impossible, but if you do it right, the design process is expensive and requires rigorous modeling and testing.”

    Fleming-failrate_chart
    Figure 1. Annual failure rate by form factor.

    Mobile = Vulnerable

    According to 2012 data from VDC Research, the average annual failure rate during the first year of deployment of rugged devices ranged from 4 to 7 percent, while average failure rates of non-rugged devices ranged from 10 to 23 percent. Past the first year of deployment, the fail rate for rugged devices drops while that of non-ruggeds rises, in some cases past 50 percent.

    Protective plastic casing over consumer-grade devices aids to some degree of protection against drops and a little against dust and grit; however, conditions such as temperature and altitude extremes, vibration, falls into water, or use in the rain require more than protection — they need rugged construction from the baseboard up.

    Several years ago, rugged handheld computers lagged considerably behind consumer devices in terms of processing power, memory, storage, connectivity, and other features, limiting the enterprise in what it could do with a rugged handheld. However, technology advances and more aggressive product development by rugged computer manufacturers now enable businesses to obtain cutting-edge speed, communications, and integrated features with all the protection that a rugged handheld offers.

    IP and MIL-STD-810G

    Two basic standards, Ingress Protection (IP) ratings and MIL-STD-810G, determine the ruggedness of handheld computers. The IP rating uses two numbers to describe how well the unit is protected against incursion by dust and water. The first number (1 to 6) measures dust protection; the second number (1 to 8) describes water protection.

    MIL-STD-810G consists of a series of U.S. military testing criteria that have gained acceptance in industries beyond the military for their methods of objectively determining whether a device can withstand potentially destructive elements such as drops, dust, water immersion, vibration, and altitude or temperature extremes. Initiated in 1961, MIL-STD-810 has seen seven revisions over the past 50 years.

    Semi-Rugged

    These computers can handle rougher treatment than a consumer-grade handheld, but they are not fully waterproof or dustproof, generally have a narrower temperature range, and do not meet all MIL-STD-810G specs. Most semi-rugged handhelds come with an IP rating of IP54. That means the unit is protected, though not sealed, against dust. It is resistant only to light splashing, but it cannot withstand jet sprays or immersion.

    Rugged

    These hardy warriors come with an IP65+ rating, which means they are sealed against dust. Dust cannot get inside the sealed form factor, even through the USB and serial ports. Plus, they can survive temporary immersion. They have passed a full battery of MIL-STD-810G tests, including drops, vibration, immersion, and temperature extremes. The higher the IP rating, the tougher the device. An IP68 device, for example, can survive salt-water immersion.