Zdenek Zumr scite author profile

Zdenek Zumr

4Publications

18Citation Statements Received

21Citation Statements Given

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Portland State University

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Remotely Accessible Instrumented Monitoring of Global Development Programs: Technology Development and Validation

et al. 2013

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Many global development agencies self-report their project outcomes, often relying on subjective data that is collected sporadically and communicated months later. These reports often highlight successes and downplay challenges. Instrumented monitoring via distributed data collection platforms may provide crucial evidence to help inform the sector and public on the effectiveness of aid, and the on-going challenges. This paper presents the process of designing and validating an integrated sensor platform with cellular-to-internet reporting purposely targeted at global development programs. The integrated hardware platform has been applied to water, sanitation, energy and infrastructure interventions and validated through laboratory calibration and field observations. Presented here are two examples: a water pump and a household water filter, wherein field observations agreed with the data algorithm with a linear fit slope of between 0.91 and 1, and an r-squared of between 0.36 and 0.39, indicating a wide confidence OPEN ACCESSSustainability 2013, 5 3289 interval but with low overall error (i.e., less than 0.5% in the case of structured field observations of water volume added to a household water filter) and few false negatives or false positives.

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Proving Sustainability: The International Development Monitoring Initative

Thomas

Zumr

Barstow

et al. 2011

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Nearly a billion people in the world lack access to safe drinking water, two billion have inadequate sanitation facilities, three billion use biomass for their daily energy needs and nearly half the world's population live in rural isolation, lacking access to the most basic human services. Combined, these limitations are a leading cause of the perpetuating cycle of poverty and political insecurity. Meanwhile, the majority of international development agencies are responsible for self-reporting project outcomes. At best, expert spot-checks are conducted in the field occasionally. These results tend to show individual project success, while metasurveys indicate on-going challenges in the sector.This disconnect may be addressed through independent data monitoring technologies that provide objective data on system performance and use and can be used to demonstrate success and identify project weaknesses. By demonstrating which technologies and programs are truly successful, these successes can be targeted for scaling, through savings realized by eliminating unsuccessful approaches. This will benefit developing communities by providing proven and accountable programs.The Sustainable Water, Energy and Environmental Technologies Laboratory, the SWEETLab™, at Portland State University is working with partners to demonstrate this concept across several applications and countries. The SWEETSense™ technology can provide objective, qualitative and continuous operational data on the usage and performance of programs across a range of sectors and communities. The data is then directly integrated into SWEETData™, an internet database presenting summary statistics on performance and usage of the monitored technologies to front-end users.The SWEETLab™ is currently demonstrating this concept in water, sanitation, household energy and rural infrastructure programs with diverse partners including Mercy Corps, the Lemelson Foundation, Bridges to Prosperity, Manna Energy Limited and Vestergaard Frandsen, in several countries including Indonesia, Haiti, Guatemala and Rwanda.Remote monitoring systems are an innovative method to ensure the success of appropriate technology projects. Rather than infrequent engagement, remote monitoring systems ensure that community partnerships are maintained through continuous monitoring. This approach seeks to raise the quality and accountability of these projects internationally.

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Last Mile Asset Monitoring: Low Cost Rapid Deployment Asset Monitoring

Zumr¹

2000

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Sustainable Oxygen: A low power approach for providing emergency medical oxygen for spacecraft and hospitals in developing countries

Huff

Rhead

Zumr

et al. 2011

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An oxygen concentrator targeting an 80% reduction in power demand over commercial systems is being developed using a pressure swing adsorption process. This system is targeted for a service interval five times longer than commercial systems, and is tolerant to high humidity environments-the leading cause of device failure in developing countries. This system could provide emergency medical oxygen in a spacecraft without increasing oxygen concentration in the vehicle. Flight surgeons seek this capability, but presently, there is no system that meets power, size, and delivery rate requirements. This type of system is also well suited for medical oxygen in hospitals in developing countries. Pneumonia accounts for 5% of all childhood deaths in Africa, and a lack of medical oxygen contributes to mortality rates. This new approach involves a high flowlow powerlow purity device. The process proposes a regenerative blower instead of a piston compressor, a humidity tolerant sorbent, and a non-traditional separation cycle.

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Zdenek Zumr

Remotely Accessible Instrumented Monitoring of Global Development Programs: Technology Development and Validation

Proving Sustainability: The International Development Monitoring Initative

Last Mile Asset Monitoring: Low Cost Rapid Deployment Asset Monitoring

Sustainable Oxygen: A low power approach for providing emergency medical oxygen for spacecraft and hospitals in developing countries

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