UST Global is an information technology solutions firm based out of California that is crossing state lines to help educate minority women about STEM in major cities across the country. The company’s CEO, Sajan Pillai, saw that children living in inner cities in California are at a disadvantage when it comes to STEM education. Young minority women are even less likely to have opportunities to learn about technology. As adults women make up half of the population, yet are distinctly outnumbered in the IT field. Step IT Up America was born as a way to bridge this gap by providing a path to education and employment in the IT field for minority women.
Engineering researchers at the University of Michigan have released a prototype of the “Polaris-H”, a radiation detector that not only works faster than its predecessors, but is also less expensive. The detector is actually a camera that sets a gamma-ray map over the view of the room. This lets users see radiation, at least on the screen. Unlike older versions of radiation detectors, this device can function at room temperature and be left alone to pick up information. The data on radiation is then stored to a USB drive, which can be inserted into a computer to analyze later. Previous methods of collecting radiation data could take weeks, but the “Polaris-H” can get the job done in half an hour. This commercialized innovation is already at work at NASA and the Department of Defense, besides, of course, nuclear power plants.
Did you know that today kicks off Engineers Week? As we write this, the Michigan Regional Future City Competition winning team is in Washington, DC, competing against other teams from throughout the United States.
For the fourth year in a row, the team from St. John Lutheran School in Rochester Hills claimed the title of Best City of the Future. With a Future City theme of: Tomorrow’s Transit- Design A Way To Move People In And Around Your City, the team from St. John built a city in the year 2164 called Gongpin located on the Li River in the Guangxi region of mountainous south-central China. To ensure a better transportation system for the city’s residents, the students created FAIR transport (Flexible, Accessible, Integrated, and Renewable). FAIR links all modes of transport, including personal vehicles, mass transit, and cargo systems at subhubs and is accessible through a LifeWatch holographic, voice-activated communication system.
St. John’s in Rochester was one of 23 schools from throughout Michigan, including the City of Detroit, to compete in the event for a total of about 600 students. Ranking in the top five were: Fifth Place Athanasius Kircher Academy, Belleville; Fourth Place: Jain Temple of Greater Detroit, Farmington Hills; Third Place: MacArthur K-8 University Academy, Southfield; and in Second Place: St. Valentine School, Redford.
Participants also walked away with numerous Special Awards sponsored by area companies many of whom not only helped with financial donations, but also allowed their employees to donate time and effort to serve as engineer mentors for more than three months.
Future City is a cross-curricular educational program where students in 6th, 7th and 8th grades imagine, design, and build cities of the future. Over four months, students work as a team with an educator and volunteer mentor to design a virtual city using SimCity software; research and write an essay addressing this year’s theme; build a model of their city using recycled materials; write a brief narrative promoting their city; and present their city before a panel of judges at a Regional Competition in January. Regional winners go on to represent their region at the national competition in Washington, DC, in February. This year’s Presenting Sponsor was the DTE Energy Foundation with major sponsors: The Ford Motor Company Fund and the Detroit Public Schools Foundation.
Update: The team from St. John Lutheran School in Rochester Hills won the national Future City Competition.
By Erin Harris
In 1492 Columbus discovered a “new world,” completely changing the course of humanity. Today there are 194 countries recognized by the U.S, and the world is only getting smaller. New technologies have allowed people to travel great distances in a short amount of time and communicate across those distances instantaneously. Yet, how do we achieve acceptance and prepare the next generation of professionals for this changing global community? How do we prepare our students to enter the global workforce?
Why the need for globally aware graduates?
The need for global awareness spreads farther than the engineering field alone. From healthcare to banking, leaders within all industries need to be aware of the globe’s increasing connectedness. The shrinking world, speedy technological advances, and disintegrating borders create a greater need to keep up with global news. In order to fulfill this need incoming professionals must develop discernment for this unity across all corners of the earth. They need the proper education, environment and nurturing in order to lead in this new age of globalization. Individuals who are unaware of the global interconnectivity cannot keep up with industry changes, and will inevitably fall behind.
How to Prepare Students
In order to prepare students for the workforce, universities all across the country have taken several steps toward global education. Through university-wide required classes, language courses and the study abroad programs, universities have begun focusing on the fact that many industries are not exclusively lead by the United States.
For instance, at Michigan Technological University (MTU), Mari Buche, PhD, Associate Professor of Management Information Systems, School of Business and Economics, has incorporated projects with real world companies into the Management Information Systems curriculum. By giving students the opportunity to work for companies that operate in the global arena they learn to consider boundary-spanning challenges.
“Another technique for exposing students to global opportunities is when I have them work on virtual teams with students from other countries. They get a first-hand look at the language, time zones, and cultural challenges that distributed teams must cope with to be successful,” said Dr. Buche. “In contrast, they also experience the incredible benefits of diverse perspectives and backgrounds, often leading to superior alternatives and solutions.”
In addition, Dr. Buche incorporated an “investigating global issues” component into the program. Through the analysis of business case studies students gain awareness and realize the complexities associated with information systems and technology within multinational companies. She teaches students that regulations are not universal and business leaders must develop knowledge of many facets of the legal aspects intertwined in the technical world.
Study Abroad Opportunities
There are roughly 3.3 million students studying abroad. The experience not only helps cultivate valuable skills but also offers students the opportunity to engage in intensive language programs and immerse in a foreign culture, as well as access courses not available at their own university.
Here in Michigan, universities have been developing programs to better encourage students to study abroad for at least one semester during their academic career. In 2012, the University of Michigan was one of five U.S. colleges and universities to receive the 2012 Senator Paul Simon Award that recognizes outstanding and innovative achievements in campus internationalization. As of the fall semester 2012 a total of 8,491 international students, faculty and staff studied and/or worked at the University of Michigan.
In addition to study abroad opportunities many universities have also incorporated globalization into their curriculum. For example, the MTU Pavlis Program—a global technology leadership program challenges students by teaching them valuable leadership skills and requiring them to study abroad for one semester. The university also offers various certifications that any major at the university may pursue, including international economics and management, global finance and international business.
Across the U.S. and the globe universities are working to prepare the next generation to take on the world and lead all industries to success. The world is changing and becoming a smaller place. The marketplace is becoming more diverse and the world integrated. Thus, the need for knowledgeable business leaders is increasing and there are many ways to prepare them for the future.
By John Nussbaum IPP, FASSE/FASPE
It is said that the plumber protects the health of the nation. Here in Southeastern Michigan it begins with safeguarding our potable water supply from waterborne and transmitted diseases as well as separating the potable water supply systems from waste and contamination. Thus you have two or more separate engineered systems. This is accomplished by the combined efforts of an educated and skilled plumbing industry. It begins with the design professionals who are Mechanical and Plumbing Engineers, Contractors, Licensed Master and Journeymen Plumbers, manufacturers of materials used in plumbing, local state and national regulatory people consisting of plan reviewers and code enforcement plumbing inspectors. Regulatory personnel may be college educated or in many cases come from the plumbing, mechanical or electrical trade.
By: Sean J. Kelley PE, MBA and Theodore A. McNeal
The City of Detroit is a place with an iconic history associated with U.S. manufacturing output, the “Motown Sound” and cutting–edge transportation infrastructure that established it as a world-class city during the 20th Century. As with any song, rhythm and movement changes are common; so it is with the City of Detroit.
It’s been said the profession that has done the most to advance human health and longevity is civil engineering, in consideration of the virtual elimination of typhus and other waterborne diseases in the U.S. via water purification/disinfection and wastewater treatment. Considering engineering in toto, this assertion is even more true today, with advanced water treatment practices and the diagnostic and surgical equipment and systems that are the products of the engineering profession.
When we consider advances in human health, we naturally think of state-of-the-art medical centers rather than what comes out of our taps and is discharged to our lakes and rivers, but potable water and treated wastewater are actually a first line of defense against disease. Continue reading Engineering Better Health
In the year 2163, the city of Hydrocity is located where Detroit existed 150 years ago. The Hydrocity region has the largest source of fresh water in the world. 150 years ago Detroit and its water system was highly polluted due to inadequate sewer systems, poor drainage, industry and agriculture. These systems directly dumped into the lakes and rivers of the Detroit area watershed. The water in this region was unusable for drinking, recreation and wildlife. Hydrocity solves the problem of run off through porous pavement and rain water collection systems, and advanced sewage separation which separates sewage from gray water. Hydrocity is now a city with clean waterways, and thriving fishing and recreation industries. The end result is a city with a growing population of 2.4 million citizens. People are now moving into and visiting this clean, water rich community.
By Ashley Maier
Detroit was once a booming city, but when the recession hit a couple years ago, the Motor City and its once thriving auto industry came to a halt. Though the auto industry has recovered, there are still many Michiganders looking for jobs and new opportunities. The good news is that many innovative new businesses are helping diversify the area and bring a new energy to the city.
One of those businesses taking advantage of Detroit’s revitalization is Salt and Cedar, Continue reading Innovation in Detroit: A Look at Salt & Cedar Letterpress Studio
In 2147 Trivandrum, Kerala, India was destroyed by a catastrophic monsoon storm which flooded the city. In the preceding years, changes in weather increased the severity of monsoons, bringing over 50 billion gallons of precipitation into Trivandrum annually. Due to over-population, more natural land was used for buildings and roads creating excessive stormwater runoff. Instead of filtering into natural aquifers, the water flooded the city, collecting pollution and emptying it into the Indian Ocean. The depleted aquifer created water shortages during drought season.