mike@standardsmichigan.com, Author at Standards Michigan

Rhubarb | From the Ground Up

Delivering our rhubarb around the village#Sunday pic.twitter.com/vEmSF4k8Uo

— Megs (@meg_j_boyle) April 28, 2024

The University of Wyoming Extension service provides research and education to farmers and ranchers; funded by federal, state, and local sources:

Agricultural production and management: The Extension service provides information and resources on topics such as crop production, livestock management, and farm business management.
Soil and water management: The Extension service offers expertise on soil fertility, irrigation, water quality, and conservation practices.
Pest management: The Extension service provides resources and support for integrated pest management, including information on insect and disease control, weed management, and pesticide safety.
Youth education: The Extension service offers educational programs and activities for youth interested in agriculture, including 4-H clubs and competitions.
Community development: The Extension service works with local communities to support economic development, tourism, and natural resource conservation.

The Extension service also offers consultations, workshops, field days, and other events to help farmers and ranchers stay up-to-date on the latest research and technologies in agriculture.

Standards Wyoming

Readings / Morrill Land-Grant Act

Albert Bierstadt: Landscapes of the American West

Illumination 300

IEEE Education & Healthcare Facilities Committee

“Starry Night Over the Rhône” 1888 Vincent van Gogh

Today we refresh our understanding of the moment in illumination technologies for outdoor lighting systems— related but different from our exploration of building interior illumination systems in Illumination 200. Later in 2023 we will roll out Illumination 500 which explores litigation related to public illumination technology. As cities-within-cities the shared perimeter of a campus with the host municipality has proven rich in legal controversy and action.

Illumination technology was the original inspiration for the electric utility industry; providing night-time security and transforming every sector of every economy on earth. Lighting load remains the largest component of any building’s electric load — about 35 percent– making it a large target for energy regulations.

Our inquiry begins with selections from the following documents…

International Electrotechnical Commission TC 34 Lighting

IEC 60364 Electrical Installations in Buildings

2023 National Electrical Safety Code

IEEE P3001.9 – Recommended Practice for the Design of Power Systems Supplying Lighting Systems in Commercial and Industrial Facilities (under development)

Institution of Engineering and Technology: Recommendations for Energy-efficient Exterior Lighting Systems

2023 National Electrical Code: Article 410 (While the bulk of the NEC concerns indoor wiring fire hazards, there are passages that inform outdoor lighting wiring safety)

2019 ASHRAE 90.1: Chapter 9 Lighting

Illumination Engineering Society: Various titles

ISO/TC 274 Light and lighting

Salt Water River Project: Outdoor Lighting Standards

…and about 20 other accredited, consortia or ad hoc standards developers and publishers aligned principally with vertical incumbents. Illumination was the original inspiration (i.e. the first “killer app”) for the electrical power industry in every nation. Its best practice literature reflects a fast-moving, shape-changing domain.

Click in today with the login credentials at the upper right of our home page.

Upper Wharfedale Primary Federation School District Yorkshire Dales

McGill University: Before electricity, streets were filled with gas lights

Outdoor lighting systems can be owned and maintained by different entities depending on the context and location. Here are some examples of ownership regimes for outdoor lighting systems:

Public ownership: In this case, outdoor lighting systems are owned and maintained by the local government or municipal authority. The lighting may be installed in public spaces such as parks, streets, and other outdoor areas for the safety and convenience of the public.
Private ownership: Outdoor lighting systems may be owned by private individuals or organizations. For example, a business owner may install outdoor lighting for security or aesthetic reasons, or a homeowner may install outdoor lighting in their garden or yard.
Co-owned: Outdoor lighting systems may be owned jointly by multiple entities. For example, a residential community may jointly own and maintain outdoor lighting in their shared spaces such as parking areas, community parks, or recreational facilities.
Utility ownership: Outdoor lighting systems may be owned and maintained by utility companies such as electric or energy companies. These companies may install and maintain street lights or other lighting systems for the public good.
Third-party ownership: In some cases, a third-party entity may own and maintain outdoor lighting systems on behalf of a public or private entity. For example, a lighting contractor may install and maintain lighting in a public park on behalf of a local government.

The ownership regime of an outdoor lighting system can have implications for issues such as installation, maintenance, and cost-sharing. It is important to consider ownership when designing and implementing outdoor lighting systems to ensure their long-term effectiveness and sustainability.

More

International Commission on Illumination

National Electrical Manufacturers Association

National Electrical Contractors Association

Representative Specifications

Sam Houston State University | Division 26500 Interior and Exterior Lighting

University of Delaware | Division 265100 Interior Lighting

Cal Poly University San Luis Obispo | Division 265100 Interior Lighting

Relevant Research

Enhancing the Sustainability of Outdoor Floodlighting for Cultural Heritage Buildings

The Performance and Impact of LED Floodlights in an Outdoor Electrical Substation During Misty Weather Conditions

Replacement of HPS Luminaires with LED Luminaires for the Lighting Requirements of an Outdoor Electrical Substation

Christian Wiman ✨ pic.twitter.com/r95fWwZZmP

— Dr. Maya C. Popa (@MayaCPopa) May 28, 2023

EV Charging Stations Integration into Public Lighting Infrastructure

Technical Conditions of EV Charging Stations Integration into Public Lighting Infrastructure

Jurica Perko

Regional Energy Agency North, Koprivnica, Croatia

Danijel Topic – Goran Knezevic – Matej Znidarec

University of Osijek

Abstract: Increase in the number of electric vehicles (EV) is closely related to the availability of a charging station network. Users of electric vehicles require high-quality distribution and well-covered charging network. The obstacles in electric mobility are small mobility of electric cars due to the lack of charging stations. The main objective of the paper is to encourage the growth of electric mobility through the development of electric vehicle charging stations. Integration of EV charging stations in public lighting infrastructure with proper demand side management (DSM) is a step forward to microgrid system deployment. It can contribute to microgrid stability and decrease distribution network dependence. Electric vehicles have a significant role in peak load shaving in microgrid due to its threefold role. They can be observed as demand side, supply side or storage. As a consumer or storage, they can take over energy surplus from a distributed generation or provide stored energy in key moments as flexible supply. In that way, they actively participate in the microgrid. Technical possibilities of EV charging stations integration in public lighting infrastructure are explored through this paper. Special attention is devoted to conditions and limitations of charging stations integration regarding power system grid, public lighting system and legislative framework. Paper provides fundamentals of EV charging stations and public lighting system where possibilities and limitations of integration are presented. Furthermore, the paper deals with limitations from the perspective of transformer capacity and cable cross sections which are obtained through analysis of calculated results.

CLICK HERE to order complete paper

Fast & Ultra-Fast Charging for Battery Electric Vehicles

A Procedure to Estimate the Energy Requirements for Lighting

Giuseppe Parise – Luigi Martirano – Luigi Parise

Sapienza, University of Rome

Abstract: The amount of the electrical energy used for the interior lighting of medium and large buildings is generally considerable. The European Standard EN15193 was devised to establish conventions and procedures for the estimation of energy requirements of lighting in buildings by an energy performance numeric indicator. This methodology is based on the three derating factors that consider the influence of the daylight exploitation, the occupancy behavior and, if present, of a constant illuminance sensor. The factors are evaluated by a statistical approach on the basis of general reference data tabulated by the same Standard, not considering more detailed parameters of the control system that can impact severely in the effective energy savings. The Standard methodology appears extremely useful for a preliminary evaluation. For a more accurate evaluation, this paper suggests an improvement of the procedure that considers the effective operation time and occupancy behavior, the type of control and lamps, the number of control groups, the technique of modulation (dimming or switching), and the delay in turning off. The suggested procedure is compared with the Standard one to highlight the improvements.

CLICK HERE to order complete paper

Energy performance of buildings: An useful procedure to estimate the impact of the lighting control systems

Topology of Continuous Availability for LED Lighting Systems

Quadrivium: Summer

“It has been discovered that with a dull urban population,

all formed under a mechanical system of State education,

a suggestion or command, however senseless and unreasoned,

will be obeyed if it be sufficiently repeated”

— Hilaire Belloc

NIST | ANSI Standards Action | USPTO

IEC | ISO | ITU

IEEE Joint IAS/PES/IES Workspace | NFPA 2026 NEC Workspace | IEEE 2028 NESC Workspace

Bloomfield Hills Schools | Oakland County Michigan

Summer Week 28 | July 8 – July 14

Standards July: Human Resources

Northwestern University Breaks Ground on Football Stadium

2024 AIA International Design Awards are now open for submissions!
Deadline: Fri 2 August @ 5:00pm (EST)https://t.co/GdVmvNCfvz
Eligibility is open to all AIA members
Winners revealed at the AIA Int’l Conference in Hong Kong on October 26, 2024!#architecture #design #awards pic.twitter.com/UbmSBhHmuz

— AIA International (@aiaintlregion) June 26, 2024

“The Earthly Paradise with the Fall of Adam and Eve” 1615 | Peter Paul Rubens

“…O chestnut tree;, great rooted blossomer,
Are you the leaf, the blossom or the bold?
O body swayed to music, O brightening glance,
How can we know the dancer from the dance?”

— Among Schoolchildren, 1933 William Butler Yeats

We sweep through the world’s three major time zones; updating our understanding of the literature at the technical foundation of education community safety and sustainability in those time zones 24 times per day. We generally eschew “over-coding” web pages to sustain speed, revision cadence and richness of content as peak priority. We do not provide a search facility because of copyrights of publishers and time sensitivity of almost everything we do.

“Extraordinary Popular Delusions and the Madness of Crowds” (1841) | Charles Mackay

Cognitive Science: An Introduction to the Study of Mind

“The Natural History of Stupidity” (1959) Paul Tabori

Our daily colloquia are typically doing sessions; with non-USA titles receiving priority until 16:00 UTC and all other titles thereafter. We assume policy objectives are established (Safer-Simpler-Lower-Cost, Longer-Lasting). Because we necessarily get into the weeds, and because much of the content is time-sensitive and copyright protected, we usually schedule a separate time slot to hammer on technical specifics so that our response to consultations are meaningful and contribute to the goals of the standards developing organization and to the goals of stewards of education community real assets.

Really fun seeing our teachers modifying core curriculum to meet our students needs. Instead of thinking that they can’t, I love how we think of how we can!!! #dg58pride pic.twitter.com/xTGjkjd7DS

— Dr. Jackelyn (@DrCadard) January 24, 2024

1. Leviathan. We track noteworthy legislative proposals in the United States 118th Congress. Not many deal specifically with education community real assets since the relevant legislation is already under administrative control of various Executive Branch Departments such as the Department of Education.

We do not advocate in legislative activity at any level. We respond to public consultations but there it ends.

We track federal legislative action because it provides a stroboscopic view of the moment — the “national conversation”– in communities that are simultaneously a business and a culture. Even though more than 90 percent of such proposals are at the mercy of the party leadership the process does enlighten the strengths and weakness of a governance system run entirely through the counties on the periphery of Washington D.C. It is impossible to solve technical problems in facilities without sensitivity to the zietgeist that has accelerated in education communities everywhere.

North Dakota

We typically post one federal and one state level consultation or action every day for at least one of the 50-states — in the lower right corner of our home page when most education communities in the United States have begun a new work day. Examples, irregularly linked:

~~U.S. Department of Commerce Bureau of Industry and Security: Public consultation on US standards system rule (November 8)~~

2. National Institute of Standards and Technology (NIST)

~~Post-Quantum Cryptography Practice Guide (June 8)~~

~~Public Consultation on Semiconductor Manufacturing (November 28)~~

NIST Awards Funding to 5 Universities to Advance Standards Education

NIST Center for Neutron Research: 2022 Outstanding Student Poster Presentation

Commerce Levels Playing Field to Support U.S. Stakeholder Participation in International Standards Setting Activities

NIST Report Outlines Strategic Opportunities for U.S. Semiconductor Manufacturing

Occupational exposure and indoor environmental quality evaluation from operating multiple desktop 3D printers in an office environment within a library.

3. ANSI ISO Business (Many of these projects are normally covered during our Hello World! colloquia

ANSI April 2023 Public Policy Update

ANSI January Report 2023 on ISO, IEC & ITU Work Items

~~ISO Standardization Foresight Framework | Trend Report 2022~~

New ISO Subcommittee ISO/TC 197/SC 1 – Hydrogen at Scale and Horizontal Energy Systems

New ISO Subcommittee ISO/TC 67/SC 10 – Enhanced oil recovery

Update: Certification+Degree (C+D) pathways in information technology (IT) and health sciences.

2023 Student Paper Competition Theme: Standards Supporting United Nations Sustainable Development Goals. Submissions due 2 June 2023

Standards Coordination Office | USA WTO TBT Enquiry Point

USNC/IEC

Consultations (Some posted with IEEE Education & Healthcare Facilities Committee) | Direct access to primary workspace

4. Fast Forward

Looking Ahead: 2024

5. Rewind

Retrodiction

Lights Out

6. Corrigenda

International Standardization Organization Week Date

Readings

Glossary: Education

The College Idea: Andrew Delbanco

Campus Outdoor Lighting

“The Starry Night” | Vincent van Gogh

The IEEE Education & Healthcare Facilities Committee has completed a chapter on recommended practice for designing, building, operating and maintaining campus exterior lighting systems in the forthcoming IEEE 3001.9 Recommended Practice for the Design of Power Systems for Supplying Commercial and Industrial Lighting Systems; a new IEEE Standards Association title inspired by, and derived from, the legacy “IEEE Red Book“. The entire IEEE Color Book suite is in the process of being replaced by the IEEE 3000 Standards Collection™ which offers faster-moving and more scaleable, guidance to campus power system designers.

Campus exterior lighting systems generally run in the 100 to 10,000 fixture range and are, arguably, the most visible characteristic of public safety infrastructure. Some major research universities have exterior lighting systems that are larger and more complex than cooperative and municipal power company lighting systems which are regulated by public service commissions.

While there has been considerable expertise in developing illumination concepts by the National Electrical Manufacturers Association, Illumination Engineering Society, the American Society of Heating and Refrigeration Engineers, the International Electrotechnical Commission and the International Commission on Illumination, none of them contribute to leading practice discovery for the actual power chain for these large scale systems on a college campus. The standard of care has been borrowed, somewhat anecdotally, from public utility community lighting system practice. These concepts need to be revisited as the emergent #SmartCampus takes shape.

Electrical power professionals who service the education and university-affiliated healthcare facility industry should communicate directly with Mike Anthony (maanthon@umich.edu) or Jim Harvey (jharvey@umich.edu). This project is also on the standing agenda of the IEEE E&H committee which meets online 4 times monthly — every other Tuesday — in European and American time zones. Login credentials are available on its draft agenda page.

University of Toronto night canada facebook timeline 1929 719

Late_night_SFSU_quad night San Francisco State University

st joseph university night winterish 1923 721

Champlain College vermont fall facebook summer or spring cover night 1921 720

University of Alaska Fairbanks facebook timeline northern lights 1922 721

University_of_Utah_Hospital_in_2009 1921 721 featured twlight

valdosta state university facebook cover spring summer twilight 1921 719

Issue: [15-199]

Category: Electrical, Public Safety, Architectural, #SmartCampus, Space Planning, Risk Management

Contact: Mike Anthony, Kane Howard, Jim Harvey, Dev Paul, Steven Townsend, Kane Howard

LEARN MORE:

Baseball Lighting

“Baseball at Night” | Morris Kantor (1934)

“Baseball is ninety percent mental

and the other half is physical.”

– Yogi Berra

After athletic facility life safety obligations are met (governed legally by NFPA 70, NFPA 101, NFPA 110, the International Building Code and possibly other state adaptations of those consensus documents incorporated by reference into public safety law) business objective standards may come into play. For business purposes, the documents distributed by the National Collegiate Athletic Association inform the standard of care for individual athletic arenas so that swiftly moving media production companies have some consistency in power sources and illumination as they move from site to site. Sometimes concepts to meet both life safety and business objectives merge.

During the spring baseball season the document linked below provides guidance for illumination designers, contractors and facility managers:

NCAA Best Lighting Practices

Athletic programs are a significant source of revenue and form a large part of the foundation of the brand identity of most educational institutions in the United States. We focus primarily upon the technology standards that govern the safety, performance and sustainability of these enterprises. We cover the objectives of the energy conservation advocates in separate posts; notably advocates using the International Code Council and the ASHRAE suite to advance their agenda to press boxes and the entire baseball experience (interior and exterior) site in separate posts.

We collaborate very closely with the IEEE Education & Healthcare Facilities Committee where subject matter experts in electrical power systems meet 4 times each month in the Americas and Europe.

See our CALENDAR for our next Sport colloquium. We typically walk through the safety and sustainability concepts in play; identify commenting opportunities; and find user-interest “champions” on the technical committees who have a similar goal in lowering #TotalCostofOwnership.

Issue: [15-138]*

Category: Electrical, Energy Conservation, Energy, Athletics & Recreation

Colleagues: Mike Anthony, Jim Harvey, Jose Meijer, Scott Gibbs, George Reiher

More

Comparison of MH and LED performance for sport lighting application

A novel smart energy management system in sports stadiums

Tracking pitches for broadcast television

Stadium Lights

Outdoor Lighting Design Guide

Sport Lighting

Sport Lighting

heroes_hat_arena_shot_HIGHRES_1 quinn 1921 721

University of Florida Gators Volleyball interior facebook album 1919 719

alaska achorage sport gymnastics student 19

EPv2USzUwAAjlmD new mexico state university basketball students interior 1919

Kent_State_Wrestling1 ohio interior athletics wiki 1922 721

erasmus university rotterdam 1921 721 athletic interior

University of Liverpool facebook timeline UK interior pool water international UK 1921 719

Hillsdale College interior michigan student 1921 723

Athletic and recreational sports enterprises are important features in education communities; supportive of brand identity and cohort creation. Assuring the safety and sustainability of these assets is informed by several best practice titles; among them the Illuminating Engineering Society recommended practice RP-6-15 Sports and Recreational Area Lighting From the project prospectus:

The purpose of RP-6-15 is to provide the reader with recommendations to aid in the design of sports lighting systems. Popular sports, such as baseball, tennis, basketball and football as well as recreational social activities, such as horseshoe pitching and croquet are covered. Venues for spectators of amateur, collegiate, and professional sports are complex facilities that should provide not only for the spectators, but also the equipment used in modern sports broadcasting. This document does not address those needs, so the reader should look for guidance from the sports league or the project consultant.
Sports lighting systems consume power which over time can be significant, and IES RP-6-15 defines methods for maximizing energy efficiency.

The IES-suite joins standards developed by the International Code Council (International Building Code), the Institute of Electrical and Electronic Engineers (IEEE 3001.9) and the National Fire Protection Association (NFPA 70) that must be applied skillfully by design professionals and understood by athletic facility managers. Other consensus standards developers such as the American Society of Heating and Refrigeration Engineers and the Entertainment Services and Technology Association were moving into this domain before the circumstances of the pandemic.

We always encourage our colleagues in the education industry to do so themselves; starting with the links below:

Committees

IES Standards Open for Public Review

There are no sport-related titles open for public consultation at this time.

Keep in mind that the IES typically deals with the application of best practice in illumination. It neither covers the reliability of the power systems nor the power chain to the luminaries. Recommended practice for the power chain are now being developed by the IEEE Industrial Applications Society; specifically IEEE 3001.9 – Recommended Practice for the Design of Power Systems Supplying Lighting Systems in Commercial and Industrial Facilities. The IEEE Education & Healthcare Facilities Committee pulls together ALL the standards — ICC, IEEE, IEC, NFPA, IES, ASHRAE, ASTM, ESTA and any other emergent consensus or open source documents that might set the standard of care for the education industry.

University of Michigan

The IEEE E&H Committee meets online 4 times monthly in Europe and the United States; and those meetings are open to the public (CLICK HERE). Additionally, we set aside one hour every month to walk through the entire suite of standards for sports and recreation facilities. See our CALENDAR for the date of our next Athletic & Recreation standards teleconference. Login credential are at the upper right of our home page

Issue: [16-132]

Category: Electrical, Athletics & Recreation

Colleagues: Mike Anthony, Jim Harvey, Kane Howard