Joseph Sutton-Holcomb from The Seattle Times writes that author Daniel James Brown got the idea to write this book when his neighbor Judy Willman said that her father, Joe Rantz, was a fan of his works and wanted to have a conversation with the author. That conversation with Joe Rantz about life during the Great Depression led to an in-depth chat about his time as a rower at the University of Washington.
Recreational sports, athletic competition, and the facilities that support it, are one of the most visible activities in any school, college or university in any nation. Arguably, these activities resemble religious belief and practice. Enterprises of this kind have the same ambition for safety and sustainability at the same scale as the academic and healthcare enterprises.
According to IBISWorld Market Research, Sports Stadium Construction was a $6.1 billion market in 2014, Athletic & Sporting Goods Manufacturing was a $9.2 billion market in 2015, with participation in sports increasing 19.3 percent by 2019 — much of that originating in school, college and university sports and recreation programs. We refer you to more up to date information in the link below:
Today at the usual time we will update our understanding of the physical support systems for the track and field activity listed below:
Sprinting: Races over short distances, typically 100m, 200m, and 400m.
Middle-distance running: Races covering distances between sprinting and long-distance running, such as 800m and 1500m.
Long-distance running: Races over longer distances, including 3000m, 5000m, 10,000m, and marathons.
Hurdling: Races where athletes jump over hurdles at set distances, such as 110m hurdles (for men) and 100m hurdles (for women).
Steeplechase: A long-distance race that includes hurdles and a water jump.
Racewalking: A form of walking competition where athletes race over various distances while maintaining contact with the ground.
Relays: Team races where athletes take turns running a specified distance before passing a baton to the next runner. Common relay distances include 4x100m and 4x400m.
High jump: Athletes attempt to jump over a horizontal bar placed at measured heights without knocking it down.
Pole vault: Athletes use a pole to vault themselves over a high bar.
Long jump: Athletes sprint down a runway and jump as far as possible into a sandpit.
Triple jump: Athletes perform a hop, step, and jump sequence into a sandpit, with distances measured from the takeoff board to the nearest mark made in the sand by any part of the body.
Shot put: Athletes throw a heavy metal ball for distance.
Discus throw: Athletes throw a discus, a heavy circular object, for distance.
Javelin throw: Athletes throw a javelin, a spear-like object, for distance.
Hammer throw: Athletes throw a heavy metal ball attached to a wire and handle for distance.
Decathlon (men) / Heptathlon (women): Multi-event competitions where athletes compete in ten (decathlon) or seven (heptathlon) different track and field events, with points awarded for performance in each event.
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The first elevator in the United States was installed at Harvard University in 1874. It was not a passenger elevator as we typically think of today, but rather a freight elevator used to move heavy items within a building. The installation of this elevator marked an important development in building technology and transportation within multi-story structures. It was based on the design of Elisha Otis, who is famous for inventing the safety elevator with a safety brake system that prevents the elevator from falling if the hoisting cable fails. Otis’ innovation played a pivotal role in making elevators safe and practical for everyday use, leading to their widespread adoption in buildings around the world.
Elevator design by the German engineer Konrad Kyeser (1405)
Education communities are stewards of 100’s of lifts, elevators and moving walks. At the University of Michigan, there are the better part of 1000 of them; with 19 of them in Michigan Stadium alone. The cost of building them — on the order of $50,000 to $150,000 per floor depending upon architectural styling — and the highly trained staff needed to operate, maintain and program interoperability software is another cost that requires attention. All building design and construction disciplines — architectural, mechanical and electrical have a hand in making this technology safe and sustainabile.
We start with international and nationally developed best practice literature and work our way to state level adaptations. Labor for this technology is heavily regulated.
Its a rarefied and crazy domain for the user-interest. Expertise is passionate about safety and idiosyncratic but needs to be given the life safety hazard. Today we review o pull together public consultation notices on relevant codes, standards and regulations today 11 AM/EDT.
At the 1853 New York World’s Fair Elisha Otis amazed a crowd when he ordered the only rope holding the platform on which he was standing cut by an axeman. The platform fell only a few inches before coming to a halt; thus proving the safety locking mechanism he had invented will work. These elevators quickly became the type in most common usage and made vertical living possible.
Most large research universities have 100 – 1000 elevators that are highly regulated, maintained by highly regulated service personnel and inspected by highly trained conformance operatives; thus our primary interest in state-specific regulations. We have a secondary interest in innovation in the technology generally. Many sustainability goals urged in academic circles — which include greater population density in smaller areas — are challenged by mobility issues.
From the project prospectus:
“…The main feature of these products is that they are an integral part of industrial, residential or public buildings. Consequently, they should be adaptable to the technical and architectural constraints of such buildings. They must also meet the capacity requirements imposed by the intended use of the building. These products are considered as means of transport and therefore represent an essential component of the functional life of the buildings in which they are installed. Contrary to most public means of transport, they are intended for free use and operation by their passengers, which makes the integration of safety an essential concern…”
We maintain the work products of this committee on the standing agendas of our Mechanical, Elevator and Global colloquia; open to everyone. See our CALENDAR for the next online meeting.
Michigan Stadium — the largest collegiate stadium in the world — has 19 elevators.
The International Code Council bibliography of elevator safety practice incorporates titles published by American Society of Mechanical Engineers, the National Fire Protection Association and the Institute of Electrical and Electronic Engineers. The relevant section of the International Building Code is therefore relatively short and linked below.
The earliest installation of a passenger elevator in a university building in the United States was at the Massachusetts Institute of Technology in Cambridge. In 1861, Otis Brothers & Co., the company founded by Elisha Graves Otis, installed the first passenger elevator in this three-story structure that housed laboratories, classrooms, and offices for faculty and students.
This early installation of a passenger elevator marked an important milestone in the history of vertical transportation on college and university campuses, and it paved the way for the adoption of elevators in other educational institutions as they expanded in size and height over time.
It is impossible to overestimate the sensitivity of this topic but poke at it, we will. At the moment, the less written here; the better. Much of this domain is outside our wheelhouse; though it has settled on a few first principles regarding patents, trademarks and copyrights relevant to the user-interest we describe in our ABOUT.
Many large research universities have a watchdog guarding its intellectual property and trying to generate income from it, and; of course, for branding. We will dwell on salient characteristics of the intellectual property domain with which we reckon daily — highlighting the market actors and the standards they have agreed upon.
Additionally, technical standards developers are generally protected by copyright law, as the standards they create are typically considered original works of authorship that are subject to copyright protection. In the United States, the Copyright Act of 1976 provides copyright protection for original works of authorship, which includes technical standards. This means that the developers of technical standards have the exclusive right to reproduce, distribute, and create derivative works based on their standards, and others must obtain permission or a license to use or reproduce the standards.
Some technical standards may be subject to certain exemptions or limitations under copyright law. In the United States, there is a doctrine called “fair use” that allows for limited use of copyrighted works for purposes such as criticism, comment, news reporting, teaching, scholarship, or research, without the need for permission or a license from the copyright owner. Almost everything we do at Standards Michigan falls under the fair use doctrine. This is why we have no search feature and most pages are protected. If we err in this; let us know.
Patent Act: This is the primary federal law governing patents in the United States. It sets forth the requirements for obtaining a patent, the rights of patent owners, and the remedies available for infringement.
Title 37 of the Code of Federal Regulations: This contains the rules and procedures related to patents, including rules governing the filing and examination of patent applications.
America Invents Act: This is a major overhaul of the U.S. patent system that was enacted in 2011. It includes provisions such as the transition to a “first-inventor-to-file” system and the creation of new post-grant review procedures for challenging the validity of patents.
Manual of Patent Examining Procedure: This is a guidebook for patent examiners that provides detailed information on the rules and procedures for examining patent applications.
Vad är en standard? Syftet med standarder är att skapa enhetliga och transparenta rutiner som vi kan enas kring. Det ligger ju i allas intresse att höja kvaliteten, undvika missförstånd och slippa uppfinna hjulet på nytt varje gång. https://t.co/zKhgPXPdpWpic.twitter.com/oKejdKSm47
— Svenska institutet för standarder, SIS (@svenskstandard) July 15, 2019
Bringing technology and industrial innovation to market more quickly
Encouraging cooperative research and development between business and the federal government by providing access to federal laboratories
Making it easier for businesses to obtain exclusive licenses to technology and inventions that result from cooperative research with the federal government
The NTTAA — along with administrative circular A-119 from the White House Office of Management and Budget — made a direct impact on the development of new industrial and technology standards by requiring that all Federal agencies use privately developed standards, particularly those developed by standards developing organizations accredited by the American National Standards Institute (ANSI). In circular A-119 federal agencies were also encouraged to participate in the development of those standards. While discussion continues about how well the US non-government sector is doing to advance national technology strategy continues (see January 17, 2012 White House Memo M-12-08) the US standards system remains the most effective process for advancing national technology and economic priorities for the education university and others.
Comments are due by March 26th. You may comment directly to ANSI at this email address: psa@ansi.org. With respect to our higher priorities, we will not be commenting on this redline, though intellectual property and patent policies are high on the agenda of many research universities. We have advocated in other parts of the ANSI Essential Requirements document in the past, however — a history we are happy to explain at any of our weekly Open Door teleconferences every Wednesday, 11 AM Eastern time. Anyone is welcomed to join these discussions with the login information in the link below:
After months of hard work, the top five teams met at USPTO headquarters today for the final round of the 2025 National Patent Application Drafting Competition. 🏆 And the winners are … ⬇️
Thomas Jefferson was the leader in founding the United States Patent Office. Jefferson was a strong supporter of the patent system and believed that it was essential for promoting innovation and progress in the United States. As the first Secretary of State Jefferson was responsible for implementing the country’s patent system.
Article I, Section 8, Clause 8 of the United States Constitution reads as follows:
“The Congress shall have Power To promote the Progress of Science and useful Arts, by securing for limited Times to Authors and Inventors the exclusive Right to their respective Writings and Discoveries.”
In 1790, Jefferson drafted the first Patent Act, which established the procedures for applying for and granting patents. The act also created the United States Patent Office as a government agency to oversee the patent system. Jefferson appointed the first Patent Board, which was responsible for reviewing patent applications and making recommendations to the Secretary of State.
Jefferson was deeply involved in the early development of the Patent Office and was instrumental in shaping its policies and procedures. He believed that the patent system should be accessible to all inventors, regardless of their social or economic status, and he worked to streamline the patent application process to make it more efficient and user-friendly.
In recognition of his contributions to the development of the patent system, Jefferson is often referred to as the “Father of American Innovation.”
This clause grants Congress the authority to establish a system of patents and copyrights to protect the intellectual property of inventors and authors. The purpose of this system is to encourage innovation and creativity by providing inventors and authors with a temporary monopoly on their creations, allowing them to profit from their work and invest in future projects. The clause also emphasizes the importance of promoting the progress of science and the useful arts, reflecting the belief of the founders that the development of new technologies and inventions was essential for the growth and prosperity of the United States.
Over the years, the Patent Office has played a crucial role in the development of the United States as a technological leader, granting patents for inventions ranging from the telephone and the light bulb to the airplane and the computer. Today, the Patent Office is part of the United States Department of Commerce and is responsible for examining patent applications and issuing patents to inventors and companies.
Congratulations to the winners of this year’s National Patent Application Drafting Competition – Khailee, Bree, Rita, and Maria from @gwlaw, and thank you to all participants! Learn more about the competition: https://t.co/gB64fnXaM6pic.twitter.com/FWqak6Mr1m
From creating a race car safety device that protects drivers from injury to revolutionizing chemotherapy, Spartans have contributed to more than 3,300 inventions. #SpartansWillpic.twitter.com/dchCs0BFBx
New update alert! The 2022 update to the Trademark Assignment Dataset is now available online. Find 1.29 million trademark assignments, involving 2.28 million unique trademark properties issued by the USPTO between March 1952 and January 2023: https://t.co/njrDAbSpwBpic.twitter.com/GkAXrHoQ9T
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