From improving driver safety to traffic congestion to freight challenges, cities and states across North America seek out HERE to find solutions to improve quality of life for increasing populations.
This eGuide showcases five projects where HERE has directly supported transport departments in their work to improve quality of life for their people - from making one of the most challenging highways in North America safer for drivers to helping people travel on a Chicago Cubs game night to reducing congestion as cities attract newcomers.
As the world’s leading location platform in 2018 (Source: Ovum and Counterpoint Research annual indexes) HERE is a trusted advisor with a range of proven solutions to keep cities moving as they grow.
Get higher quality, more accurate location data – and a safer, more profitable fleet – by choosing the right location services provider. The true value of a location platform comes from bringing together multiple data sources and presenting them in a meaningful way. Using a platform approach, you can help customers differentiate their service, increase margins and increase safety. So, in this guide, we cover the four key considerations for choosing a mapping and location service platform to ensure a high quality, accurate mapping service for you and your customers.
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A growing urban population is putting increasing pressure on infrastructures – and creating a bigger challenge for governments to meet their safety, road performance and cost saving targets. Modern location mapping platforms are growing in accuracy and capabilities – giving governments a way to provide real-time, personalized and integrated mobility services to citizens.
In Ovum’s Location Platform Index, 2H17, HERE has been ranked a leader based on overall reach and completeness – and the leader for platform completeness. In this report, you can see exactly how we measure up in the market against some of the leading competition.
While there are many factors that contribute to workforce engagement, you can start by focusing on top employee needs that contribute to a positive work environment including Safety, Flexibility, Fair treatment and the opportunity to make an impact.
Digital technology continues to play an ever-increasing role in today’s modern healthcare systems. While 95% of hospitals in the United States have implemented Electronic Health Records or EHR, much work remains.1 Patient identification errors continue to plague hospitals and are the precipitating factor for 13% of surgical mistakes and 67% of transfusion mix-ups.2 Nationally, medication errors cause at least one death every day and injure 1.3 million people annually.3 The cost of lost lives, reduced productivity and malpractice insurance fees are debilitating the healthcare industry.
At the center of every hospital’s safety program is the patient wristband, which provides caregivers access to the information they need at every point of care during the patient stay. However, not
all wristbands are of equal quality. Some wristbands are not durable enough to withstand the rigors
of a busy hospital environment, leading to workarounds and mistakes that, in the end, comprise patient care.
Labeling blood and other samples at the time they are collected improves patient safety
and helps prevent a host of problems related to misidentification — including many of
the estimated 160,900 adverse events that occur in U.S. hospitals annually because
of sample identification errors.1 There is a strong and growing body of evidence within
medical literature that creating specimen identification labels on demand at the patient
bedside with a mobile printer can significantly reduce errors. The Joint Commission’s
National Patient Safety Goals (NPSG) for 2010 advocate the use of two patient-specific
identifiers, such as name and birthdate, whenever taking blood or other samples from
a patient, and to label the sample collection container in the presence of the patient.
Producing specimen labels at the patient bedside and encoding patient identification in
a barcode satisfies both The Joint Commission’s NPSG and Health Insurance Portability
and Accountability Act (HIPAA) requirements. T
Detecting and preventing errors that threaten patient safety is a closed-loop process that begins at the point of care, extends to independent laboratories, and then back to the caregiver. Sample identification and results reporting errors can lead to misdiagnosis and inappropriate treatment with deadly consequences. A 2006 Wall Street Journal article reported that while malpractice claims for pathology errors are relatively low, they are the second most costly. In addition to creating a serious risk to patient safety, sample misidentification creates significant financial implications. Redraws, retesting and additional treatment that result from sample errors cost the healthcare industry an estimated
$200 million to $400 million per year.
As the use of cloud solutions in government increases, both business and IT leaders are recognizing that the safety and success of their business depend on finding ways to take full advantage of cloud innovation while ensuring consistent service levels, data management and privacy, and user experiences. Hybrid IT management includes aligning the organization around service levels, cost control, security, and IT-enabled innovation.
This paper contrasts the features of medium voltage fixed circuit breaker switchgear (FCBS) and existing withdrawable circuit breaker switgear (WCBS) designs. Modern FCBS design elements that are discussed include an internal disconnect for isolation and grounding of circuits and interlocked operation among disconnect, breaker, and grounding switch for improved safety. Furthermore, features such as lower maintenance,
smaller footprint, and reduced life cycle costs that result from its simpler design will be explored. By comparing the traditional ANSI WCBS technology to that of the FCBS, this paper will demonstrate that the fixed design, which has gained widespread acceptance in global markets outside the United States, is a viable alternative to the withdrawable designs.
This on demand webinar contrasts the features of medium voltage fixed circuit breaker switchgear (FCBS) and existing withdrawable circuit breaker switgear (WCBS) designs. Modern FCBS design elements that are
discussed include an internal disconnect for isolation and grounding of circuits and interlocked operation among
disconnect, breaker, and grounding switch for improved safety. Furthermore, features such as lower maintenance,
smaller footprint, and reduced life cycle costs that result from its simpler design will be explored. By comparing
the traditional ANSI WCBS technology to that of the FCBS, this paper will demonstrate that the fixed design, which
has gained widespread acceptance in global markets outside the United States, is a viable alternative to the
There’s a reason why web application firewalls have been getting so much attention lately. It’s the same reason we keep hearing about major security and data breaches left, right, and center. Web application security is difficult—very difficult.
In today’s digital marketplace, your applications are your business.
They fuel innovation and are the driving force for staying
competitive in an always-on, always-connected world. Apps are
the way you build relationships with your customers, empower
your employees, facilitate growth, and so much more.
As an automotive parts or components manufacturer, you may be both encouraged and challenged by a growing number of trends in the automotive marketplace. From disruptive trends in product developments—such as electric vehicles, advanced assistance and safety capabilities, and driverless vehicles—to trade tariff increases, regulation changes, and higher interest rates, it’s apparent that change is in the air
Download now to learn more!
Imagine a young, urban couple with their third baby on the way. They’re ready to make the oft-dreaded leap to a minivan, and it’s time to decide on a brand and a model. While dad checks safety ratings and online reviews, mom calls her friends to ask how they like their own vans. Together, they review and compare features on the manufacturer’s website and later “build” their dream minivan, choosing colors, fabrics, floor mats, and other accessories—all without leaving their living room. Perfect car in hand and confident that they’ve chosen the best one for their needs, they arrive at the dealership and walk onto the showroom floor, ready to finally meet their salesperson.
This IDC white paper examines the drivers behind the adoption of IoT technologies by public services organizations and why the IoT is becoming a key investment priority. Public services are comprised of a diverse set of organizations, including federal, regional and local governments and healthcare and social services providers. These all have mandates to improve the safety, health and quality of life of their constituents across a broad range of programs. This paper also provides market insights and describes examples of IoT implementations that highlight the diversity of scenarios in the public service sector. These diverse scenarios illustrate the impact IoT solutions can have across many citizen-centric
Our free solutions guide profiles solutions made to take safety &
security in both new and older buildings to a higher level.
1. Building Safety & Security Solutions Guide
2. Building Safety & Security Fact Sheet
3. USB Interconnects Quick Reference Guide
4. PIDG Terminals & Splices Quick Reference Guide
5. AMPMODU Interconnect System Catalog
Code updates happen for one main reason:
safety improvement. NEC (National Electrical
Code) Article 408.3 helps take electrical safety
for service entrance panels to a new level.
The code, updated in 2017, includes provisions to provide shock
protection via panelboard barriers. The barriers protect from energized
conductors on the line terminals of the main overcurrent protection
device (OCPD) in a panelboard. When the main circuit breaker in
a panel is turned off, line side terminals and conductors remain
energized from upstream via the utility or another panelboard. With
these barriers in place and the main OCPD turned off, installers are
better protected when pulling wires into the panelboard. Today, all
panelboards are shipped with shock-protective barriers. However,
barriers are new to installation procedures, so contractors may not
recognize them and accidentally throw them out—easily and often.
To keep your organization and your data safe, it is crucial to consider forward-thinking approaches to cybersecurity. In this e-book, we discuss how you can augment your existing infrastructure within the data center with security measures in the cloud for a more robust web security posture. We also share Akamai’s approach to cloud security as well as those of other vendors. We then take a closer look at some commonly used, but sometimes misleading, metrics — so you can make more educated decisions about the best solutions for your needs.
When your power system has aging switchgear, you need to work harder to maintain safety and reliability. But easy-to-install options are available to upgrade aging switchgear to bring safety and reliability up to modern standards. Find out how switchgear modernization works in the comprehensive "Answer Guide: Make Aging Switchgear Last Longer and Perform Better."
The guide includes information like the 4 Big Wins of Modernization, embedded demonstration videos, an FAQ on how to modernize and links to other modernization resources.
Could you do more for worker safety? Protective gear alone can't prevent arc flash injury. In fact, according to NFPA 70E, injuries sustained during an arc ?ash event would be reduced and survivable due to arc-rated PPE. Complying with the safe work practices required by NFPA 70E and implementing arc flash mitigation strategies through engineering controls will enhance workplace safety for employees and lower financial risk for your company. Read the white paper, "Mitigating Arc Flash Hazards", for more information.