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Malware peddlers love this one social engineering trick! – Help Net Security

Attackers are increasingly using a clever social engineering technique to get users to install malware, Proofpoint researchers are warning.

The message warns of a problem but also offers a way to fix it (Source: Proofpoint)

Getting users to install malware on their computers was always a matter of finding the right lure and bypassing security protections. As the latter get better (and broader) and users awareness of attackers usual tricks increases, threat actors must adapt their tactics.

One method that is getting increasingly popular is the fake error message, whether displayed by a website or when opening an HTML document delivered as an email attachment.

If the desire or need to see the webpage/document is great, many users will go through the outlined steps to install the root certificate, resolve the issue, install the extension, or update the DNS cache manually.

Although the attack chain requires significant user interaction to be successful, the social engineering is clever enough to present someone with what looks like a real problem and solution simultaneously, which may prompt a user to take action without considering the risk, the researchers noted.

A typical attack chain (Source: Proofpoint)

Various attackers including an initial access broker and at least one actor using leveraging fake updates have been using this particular trick since March 2024.

The visual lures and instructions change, but the goal is the same: get the user to run PowerShell and install malware (DarkGate, NetSupport, various information stealers).

In all cases, both via the fake updates or the HTML attachments, the malicious PowerShell/CMD script is copied to the clipboard via browser-side JavaScript, commonly used on legitimate sites, too, the researchers explained.

The legitimate use, and the many ways to store the malicious code, and the fact that the victim manually runs the malicious code without any direct association with a file, makes detection for these types of threats difficult.

If browsing protections and email filters fail to block these sites and emails, users are the last line of defense. Organizations should train users to identify the activity and report suspicious activity to their security teams, Proofpoint advises.

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Triveni Engineering & Industries (NSE:TRIVENI) Will Pay A Smaller Dividend Than Last Year – Simply Wall St

Triveni Engineering & Industries Limited (NSE:TRIVENI) is reducing its dividend from last year's comparable payment to 1.25 on the 13th of October. This payment takes the dividend yield to 0.6%, which only provides a modest boost to overall returns.

View our latest analysis for Triveni Engineering & Industries

Even a low dividend yield can be attractive if it is sustained for years on end. Triveni Engineering & Industries is quite easily earning enough to cover the dividend, however it is being let down by weak cash flows. We think that cash flows should take priority over earnings, so this is definitely a worry for the dividend going forward.

Over the next year, EPS is forecast to expand by 79.8%. If the dividend continues on this path, the payout ratio could be 25% by next year, which we think can be pretty sustainable going forward.

It's comforting to see that Triveni Engineering & Industries has been paying a dividend for a number of years now, however it has been cut at least once in that time. If the company cuts once, it definitely isn't argument against the possibility of it cutting in the future. Since 2017, the dividend has gone from 0.25 total annually to 2.50. This means that it has been growing its distributions at 39% per annum over that time. Dividends have grown rapidly over this time, but with cuts in the past we are not certain that this stock will be a reliable source of income in the future.

With a relatively unstable dividend, it's even more important to evaluate if earnings per share is growing, which could point to a growing dividend in the future. Triveni Engineering & Industries has impressed us by growing EPS at 17% per year over the past five years. Growth in EPS bodes well for the dividend, as does the low payout ratio that the company is currently reporting.

Overall, the dividend looks like it may have been a bit high, which explains why it has now been cut. With cash flows lacking, it is difficult to see how the company can sustain a dividend payment. Overall, we don't think this company has the makings of a good income stock.

Investors generally tend to favour companies with a consistent, stable dividend policy as opposed to those operating an irregular one. However, there are other things to consider for investors when analysing stock performance. Case in point: We've spotted 3 warning signs for Triveni Engineering & Industries (of which 1 is potentially serious!) you should know about. If you are a dividend investor, you might also want to look at our curated list of high yield dividend stocks.

Find out whether Triveni Engineering & Industries is potentially over or undervalued by checking out our comprehensive analysis, which includes fair value estimates, risks and warnings, dividends, insider transactions and financial health.

Have feedback on this article? Concerned about the content? Get in touch with us directly. Alternatively, email editorial-team (at) simplywallst.com.

This article by Simply Wall St is general in nature. We provide commentary based on historical data and analyst forecasts only using an unbiased methodology and our articles are not intended to be financial advice. It does not constitute a recommendation to buy or sell any stock, and does not take account of your objectives, or your financial situation. We aim to bring you long-term focused analysis driven by fundamental data. Note that our analysis may not factor in the latest price-sensitive company announcements or qualitative material. Simply Wall St has no position in any stocks mentioned.

Find out whether Triveni Engineering & Industries is potentially over or undervalued by checking out our comprehensive analysis, which includes fair value estimates, risks and warnings, dividends, insider transactions and financial health.

Have feedback on this article? Concerned about the content? Get in touch with us directly. Alternatively, email editorial-team@simplywallst.com

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Talking sealants with Sunstar Engineering: Securing success – just-auto.com

The automotive industry uses a variety of sealants and adhesives within the car manufacturing process. These perform roles that vary from securing pieces together to ensuring seams stay put. One huge benefit of utilising sealants is cost and emissions reduction when compared to alternatives in some applications such as welding, which is a relatively costly and emissions-heavy process.

Sunstar Engineering works with automotive manufacturers worldwide. Its operations include a factory specialising in innovative lightweighting sealants and adhesives for the automotive market including special adhesives for electronic components. It says these components are helping automotive manufacturers create lighter, more durable, and efficient vehicles.

We spoke to Nicholas Huff, manager, new technology group, Sunstar Engineering Americas, R&D and Stephen Howe, senior director, technical operations, R&D, Sunstar Engineering Americas, to learn more about the benefits of adhesives as well as to discuss how they work with clients to achieve goals.

Just Auto (JA): Could you provide some background on the company?

Stephen Howe (SH): Engineering is a division of the general Sunstar company. Sunstar is a diversified company. We have business in oral care, health and beauty, chemicals, and motorcycle parts in construction.

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The chemical part and motorcycle and construction is in Sunstar engineering. Were about 35 to 40% of the of the business. Nick and I are in Sunstar Engineering Americas; most of our business is in automotive is supplying sealants and adhesives for OEMs. We also provide some materials to Tier 1 suppliers to the OEMs.

Nicholas Huff (NH): We are a very global company. We have our R&D facilities, sales, and manufacturing here in the US. We have similar set-ups in Europe and we have our Sunstar Engineering European group centred in Germany. We also have a very large group in Japan; our Sensor Engineering Japan group and manufacturing, sales, engineering over there, too. We also have a group in Thailand, and we have some offices in Singapore.

What benefits do adhesives bring to the automotive industry?

NH: Youll perhaps be surprised to learn that most automobiles now are really glued together, rather than just welded. That trend is increasing and it is being driven by changes in design to vehicles.

Lightweighting is a very critical area right now to improve efficiency and reduce carbon emissions. Increasing the fuel efficiency of vehicles is a big focus and of course, the lighter vehicle, the less energy is required to move it.

Lightweighting is a very critical area right now to improve efficiency and reduce carbon emissions.

Automotive manufacturers are employing many strategies to reduce the weight of their vehicles. It includes making use of alternative substrates. Instead of largely fully steel vehicle structures, there is now significant use of aluminium. But aluminium and steel dont weld together very well, you have to incorporate adhesives and thats where our business is certainly growing.

Adhesives also play a role in dampening noise and vibration in a car. As far as road noise is concerned, we can reduce vibration and associated noise with things like mastic adhesives especially useful with structural pieces that have damping capability. Theres also a comfort aspect there as well, where adhesives can play an important role.

SH: If you go back to the original vehicle manufacturer, adhesives and sealants have always played a significant role it has been increasing. You have a lot of joints in the cars when youre manufacturing cars. If you look on the inside of your car door, theres an inner and outer section, for example. If you look closer at your vehicle body, youll see the same thing. There are a lot of seams, and those seams provide an area where moisture and salt can get in and cause corrosion.

A really big part of the role of the sealants we have, alongside adhesives, is to prevent corrosion. They also play a big role in being able to use dissimilar materials because you cant really weld them all together. They also aid in distributing stresses. A problem with welds is they focus the stresses right on those weld points. With time you get a phenomenon called fatiguing. By distributing those stresses, you can prevent that fatiguing process.

It also decreases the cost to the car manufacturer as well, and aids in making assembling much more efficient.

How do adhesives and sealants assist in reducing carbon emissions and low energy manufacturing?

NH: In the automotive manufacturing process, depending on the design of the factory, up to 90% of the energy consumption in the factory comes from the weld and paint shop processes.

The process goes from the stamping area where metal is cut and then stamped into shapes. The shapes are welded and glued together. Then it goes through an anti-corrosion bath where a coating is applied onto the vehicle structure. That coating has to be cured, and to cure it, it goes through a series of ovens; those ovens consume a lot of energy. Then after that, it goes to the paint shop where sealants and other coatings are applied in addition to the paint. Then the body must go through yet another series of ovens and so there is a tremendous amount of energy thats used in those ovens, which cost the OEMs quite a lot to use.

These ovens consume a lot of energy and depending on the energy sources, much of it is coming from fossil fuels, so a lot of carbon dioxide is emitted to the atmosphere from that whole process.

To meet all these regulations that have come into place over the past few years to reduce carbon consumption, as well as to reduce energy costs, and reduce the cost of manufacturing, OEMs are looking for ways to turn down those ovens. Or even eliminate those ovens if they can. Its very important research that were doing right now. Were looking at taking our adhesives, our sealants, and our coatings and being able to cure them at much lower temperatures, or potentially finding ways to cure them without a thermal input at all.

SH: Our OEMs all have targets. Many of them are similar, but theres differences in the timing of when they want to achieve a lot of these goals. Some of it depends on where they are, of course. Energy is more expensive or more sustainably generated in some areas of the world than in others.

How do you work with OEMS to achieve their goals?

NH: Theres a lot of back and forth that we do between our research groups and the OEM research groups at their design centres. We feel out what their targets are, what their goals are, and then we as the material experts provide them with solutions and options.

Therell be a degree of tailoring of how we put together our material for their applications. This is a process that can take months or even years depending on the project, but thats how we like to approach those situations. Its a partnership, its a joint development.

SH: The way we like to work with customers, typically they will have specifications, a list of requirements. There are strength requirements, adhesion requirements, there are some application requirements, long-term durability requirements. However, we dont really know everything from a requirement list.

One of the things that we do is go into the customers assembly line and understand the requirements that arent written on the specification. In terms of the manufacturing process, if youre bonding through oily, dirty metal, that is something that has to be considered, and you have to understand exactly what materials the OEM is using and be able to test and design for that.

Theres a whole series of baths that the car will go through detergents, rinses etc. In some cases, theyll take a car, and theyll rotate it through a big bath. Now you can imagine if you have an uncured adhesive, this adhesive has to be fluid enough, with low viscosity, to easily apply at a very high rate, hundreds of millimetres a second application rates. At the same time, youre effectively sending this thing through a carwash and expect the adhesives to stay in place!

So, understanding the rheological [flow behaviour] performance, and what properties it takes to really withstand the manufacturing process is one of the bigger challenges.

The other thing is the curing. There is a temperature cure, and they want to lower the temperature. But one of the difficult things sometimes to design for is that there are some large variations in the ovens and in the temperatures. So, they will give you a target temperature, but they also want it to able to withstand different heats for longer times, and on top of that they want it to be shelf-stable for six months. There are a lot of unwritten, non-spec items that we have to consider and be able to work through with the OEM.

What do you predict to see growing in the automotive space and when?

NH: I think electrification comes with very specific engineering challenges. How do you make battery packs foolproof and completely safe? Theres a lot of opportunity there because in the manufacturing of the battery packs, there is a lot of adhesive encoding type material.

There are two real big areas emerging: one is for the actual thermal management of the battery packs, to make sure that they stay cool and theres not a runaway reaction. The other big area is for recyclability, sustainability. We have to think about the end-of-life of these battery packs and how they have to be disassembled. Theres not an easy way to do that right now with the latest generation of battery packs.

I think electrification comes with very specific engineering challenges.

The lifespans are ten years or so, which means battery packs that were made ten years ago were not being assembled the way they are now. Recycling and disassembly can be a dangerous process. We were talking to some research professors at the University of Michigan at their EV technical centre, and they were explaining to us what a dangerous process it is to recycle these large battery packs.

So a big push is for adhesives that can de-bond on demand. You apply some sort of energy, heat or maybe something else that will effectively de-bond the battery. Then you can have a much easier way to disassemble and recycle the various components inside the battery packs. Theres opportunity there.

The biggest thing that were focused on right now is low-energy carrying materials. That is a very big high priority for us, as well as providing more adhesive solutions in general.

SH: We are looking at carbon neutrality for the entire chain of the materials were presenting. There really arent any consistent or agreed upon ways to fully measure carbon neutrality and the carbon targets. So, as we go forward, were trying to keep abreast of that.

In terms of our research, and the research of our customers, you will see a lot more use of modelling and simulation. This is an area were very interested in. We have a role in terms of standardising how adhesives are tested and how the data from those tests is incorporated into simulations and modelling.

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Despite what the doomsayers claim AI will not replace software engineers – TechRadar

The advancements in artificial intelligence (AI) have led to profound changes in how we live, work and play, and stoked fears about the future of our livelihoods. Nvidia CEO Jensen Huang has even gone as far as declaring that kids no longer need to learn how to code. While AI has certainly transformed society by automating tasks and improving efficiency, there are certain roles that AI will not replaceone of which is the software engineer.

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AI excels in automating repetitive tasks and processing vast amounts of data. It can even generate high-quality code snippets, which might suggest a potential to replace software engineers. However, the essence of software engineering goes beyond mere coding. It involves creativity, problem-solving, and innovationqualities that AI cannot mimic.

Historically, technological advancements like the printing press did not eliminate roles that required deep knowledge and creativity, but transformed them. Similarly, software engineers leverage AI to enhance their skills but cannot be replaced by it. Their role is akin to that of authors who use tools to better articulate their vision but still rely on their intrinsic creativity and expertise.

The evolving landscape of the tech field has shown that while the demand for certain technical roles, especially at the entry-level, may decrease due to AI's capabilities, there is an increased need for higher-level skills and a solid foundation in core competencies.

Companies are increasingly seeking engineers who can tackle complex challenges and drive significant impacts. Specialized roles such as AI/ML engineers, data engineers, and computer vision engineers are more in demand than ever.

Providing a platform that helps software engineers refine their essential skills and prepare for advanced roles is crucial. The tech community benefits from the constantly changing demands of the tech landscape, ensuring that engineers stay innovative. Offering a wealth of resources, including algorithmic challenges, mock interviews, and educational content, which empowers engineers to excel in their careers and adapt to new technologies.

While AI serves as a powerful enhancement tool, mastering the fundamentals is crucialsimilar to how a chef must understand basic cooking techniques to excel. Ensuring that engineers not only meet but exceed the evolving standards, preparing them for complex and specialized roles.

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While technical proficiency is essential, the role of a software engineer extends much further than coding. Software engineers collaborate with cross-functional teams, engage in problem-solving, and drive innovation. These aspects of the job demands emotional intelligence, empathy, a thorough understanding of business contexts, and effective communication skills qualities that AI cannot replicate.

For instance, when developing user-centric software, understanding user needs and behaviors is crucial. Software engineers use their creativity and empathy to design intuitive and accessible solutions. They also navigate complex social and ethical considerations, ensuring that technology benefits society as a whole. These human-centric tasks underscore the irreplaceable value of software engineers.

The tech industry is dynamic, with new tools, languages, and frameworks emerging regularly. Software engineers must engage in lifelong learning to remain relevant. This continuous learning mindset is intrinsic to the profession and ensures that software engineers are always at the cutting edge of technology. AI, on the other hand, operates within the confines of its predefined datasets and cannot autonomously acquire new knowledge or skills in the same way.

Software engineers are indispensable to the continued growth and development of technology. While AI can enhance their work, it cannot replace the creativity, critical thinking, and collaboration that software engineers bring to the table. The future will see software engineers in higher demand, with an emphasis on strong foundational skills or specialized expertise that drives technological advancement.

AI is a powerful tool that complements the work of software engineers, but it cannot replace them. The unique skills and contributions of software engineers ensure that they remain essential to the advancement of technology and society. As we look to the future, software engineers will continue to play a pivotal role in shaping the world we live in.

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This article was produced as part of TechRadarPro's Expert Insights channel where we feature the best and brightest minds in the technology industry today. The views expressed here are those of the author and are not necessarily those of TechRadarPro or Future plc. If you are interested in contributing find out more here: https://www.techradar.com/news/submit-your-story-to-techradar-pro

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This Camper Van Is an Engineering Masterpiece With a Genius, One-of-a-Kind Design – autoevolution

All the camper vans I present to you here on autoevolution have something inside them that makes them stand out, be it the aesthetics or some cleverly integrated feature. But I seldom stumble upon a rig like the one I'm discussing today, packed with many genius amenities.

Meet Lex and his self-converted tiny home on wheels, based on a Ram ProMaster 1500 with a 136" wheelbase. It's challenging to make the interior livable when dealing with much larger rigs, so imagine what it's like to work with a living space this compact. Nevertheless, Lex came up with an extremely impressive setup. By the way, this rig is designed to accommodate two people, as Lex travels together with his wife.

There's not much to talk about regarding the vehicle's exterior. It's finished in white with black trim, and the only element that might give away its "camper DNA" is a bunk window at the rear, meaning it can definitely be used to stealth camp. Moreover, if you climb on top of the van, you'll find 800 W solar panels.

So far, it's a standard camper van build. But the real magical part of this rig is its interior. The first things that will catch your eye are the walls, which are finished with a sponge-pattern paint - Lex chose it since you can't see any scratches you make on it, which inevitably happen. Various wood accents and a vinyl-tiled floor complete the look.

Photo: YouTube Screenshot / Element Life

At first glance, it might seem like this is a simple DIY interior. But bear with me to see all the clever features Lex installed. Let me start from the front the driver's cabin doubles as a seating area, as its two seats can be swiveled, and there's a Lagun table behind the passenger seat.

Dead ahead of the entrance, you'll discover a storage area. Specifically, Lex fitted an overhead shelf and small counter integrating three drawers, a flip-up table, and a cabinet hiding this camper's toilet. It's a simple toilet made from a bucket with a plastic bag and a regular toilet seat above.

Lex created a footrest behind the driver's seat. It houses an Espar diesel heater he had from a previous van build.

Photo: YouTube Screenshot / Element Life

Next, we have the bedroom, which is comprised of two bunk beds. Lex chose this setup so that he and his wife could get out of bed during the night without bothering each other.

But here's the genius part about the bedroom the top bunk is mounted to the wall and can be flipped up to create more space if Lex wants to haul more cargo. In addition, the bunk can also be flipped down - together with the lower bunk, they make a couch, with the top bunk serving as a backrest. It's a clever and space-saving solution.

On the opposite side, Lex devised a kitchen. It features a deep sink, a spacious countertop that can be extended via a flip-up table, a large fridge/freezer box, a single-burner induction stove, and a multi-functional Cuisinart Griddler. For storage, Lex utilizes a wall-mounted storage bag, a long overhead shelf, and multiple drawers.

Photo: YouTube Screenshot / Element Life

Lex vacuum-seals all the food in bags and then uses the Griddler to cook it by setting it to the same temperature as boiling water. Amazingly, with this setup, Lex can carry food for two people for two months. Moreover, he also does sous-vide in a thermal container heated by an immersion heater.

There's never enough storage space in a camper van. And in a small van, it's even more important to use every inch available. So, Lex installed toe-kicks and three drawers under the lower bunk bed, as well as a compartment that houses the rig's batteries.

This mobile home's electrical system is very capable. Its highlights are a 1,500 W inverter, an MPPT charge controller connected to the 800 W solar panels on the roof, a DC-DC charger allowing the batteries to charge via the vehicle's alternator, and 540 Ah batteries. What's more, Lex saved a lot of money by setting the batteries up himself instead of purchasing pre-packaged ones, such as those from Victron or BattleBorn.

Photo: YouTube Screenshot / Element Life

Lex made his camper van four-season-ready by using three layers of insulation. Specifically, he added two layers of Thinsulate separated by Low-E reflective insulation. For the floor, he used half-inch plywood set on top of a commercial bed rug, which was laser-cut to cover the grooves of the van's original floor perfectly.

All in all, I'm in awe of what Lex has managed to create all by himself. He surely must have an engineering background, as well as a lot of talent.

Despite its size, his tiny home on wheels is filled with useful features. It might not look as good as other fancier builds, but considering its creator's fine craftmanship, this rig will probably outlive them.

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Sustainability-Focused Consulting and Engineering Firm RSK Raises 500 Million – ESG Today

Sustainable solutions provider RSK Group announced today that it has raised 500 million through a preferred equity investment, aimed at supporting the companys ambitious growth plans, including both organic and inorganic opportunities.

Founded in 1989 by CEO Alan Ryder, UK-based RSK provides environmental consulting and engineering solutions to clients across water, energy, construction and infrastructure sectors, aimed at helping companies to minimize their environmental impact and conduct business in an environmentally responsible manner, through its network of more than 200 environmental, engineering and technical services businesses, and 15,000 employees.

The capital raise follows the launch last year by RSK of its 2030 Global Growth Strategy, including goals to nearly quadruple revenue to more than 5 billion, and to double its family of environmental and engineering businesses from 200 and 400 by 2030. The strategy outlined global priorities, including urbanization and the need to build sustainable cities, supporting the global energy transition, significant demand for new and upgraded infrastructure, sustainable food production to feed growing populations, addressing the impacts of climate change, and ensuring clean water and sanitation.

Ryder said:

After three decades, RSK remains committed to delivering environmental and engineering services to help government and business clients around the world achieve a more sustainable future. The opportunities for RSK increase at pace.

The preferred equity financing was led by alternative investment manager Ares Management Corporation, who first invested in RSK in 2018, and private investment firm Searchlight Capital Partners. Ares also committed an incremental 300 million debt facility to support RSKs growth plans, bringing total available debt facilities provided by the firm to 1.4 billion.

Ares Management Co-Head of European Credit, Michael Dennis, said:

Since our initial investment in 2018, we have seen firsthand RSKs commitment to helping advance the energy transition through differentiated client solutions. We are excited to increase our financial commitment alongside Searchlight and further support the Companys focus on identifying new investment opportunities and developing innovative capabilities that can drive more sustainable business outcomes and long-term growth for RSK.

Searchlight Partner Giles Marshall added:

The evolving regulatory landscape, accelerating global energy transition and goal of providing clean water and sanitation for all, present increasing challenges and opportunities for RSKs customers, which the business is uniquely positioned to execute on.

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Provost Susan Tighe recognized with prestigious civil engineering award – Brighter World

The Canadian Society for Civil EngineeringsRalph Haas Award honours Tighes outstanding contributions to sustainable infrastructure in Canada.

Provost and Vice-President (Academic) Susan Tighe has been recognized with a national award for her outstanding and transformative contributions to sustainable infrastructure research in Canada.

Tighe, a professor of civil engineering, is the recipient of the inaugural Ralph Haas Award, presented by the Canadian Society for Civil Engineering (CSCE).

The award recognizes her pioneering work that has resulted in major changes to airport, road and highway technology, specifications and standards worldwide.

Tighe also has an extensive record of scientific achievement.

Im incredibly proud to accept this award, says Tighe.

To be a professional civil engineer is to have the opportunity to make a meaningful impact in Canada and beyond. Its that passion and curiosity that has propelled me through my academic and professional career. I have also really enjoyed mentoring the next generation of leaders.

Exemplifying civil engineering excellence

The award, presented to a CSCE member who has made truly outstanding contributions to sustainable infrastructure research in Canada, is named forHaas, a professor of engineering at the University of Waterloo who is considered the father of pavement asset management.

Dr. Tighes contributions to sustainable infrastructure in Canada span decades, says CSCE President Gopal Achari.

Her work not only advances the field of civil engineering but also inspires future generations of engineers.

In a career that spans over three decades, Tighe, who joined McMaster in 2020, has expertise in transportation and pavement engineering and management that laid the foundation to becoming an award-winning Canadian engineer and beacon for women in engineering.

Tighe has worked in Australia, Africa, China, Chile, New Zealand and throughout North America.

After completing her bachelors degree in chemical engineering, she spent nearly four years at the Ministry of Transportation of Ontario (MTO) and could often be found on construction sites, including supervising MTO inspectors and contractors working on Ontarios Highway 407.

She also spent her first academic sabbatical working in the private sector in Australia.

Tighe completed her masters and PhD in civil engineering, eventually joining the department of Civil and Environmental Engineering at the University of Waterloo, where she spent over 20 years as a professor, Canada Research Chair, Endowed Research Chair, and Director of the Centre for Pavement and Transportation Technology (CPATT).

Tighe led the development of the 2013 Transportation Association of Canada Pavement Asset Design and Management Guide, which sets the standard for pavement in Canada.

She has received numerous awards and recognitions, including being the first amongst the inaugural cohort of inductees to the College of New Scholars, Artists and Scientists of the Royal Society of Canada and being named one of Canadas Top 40 Under 40.

This award is a well-deserved recognition of Provost Tighes outstanding work in advancing civil engineering, research and practice, and I am delighted she is being honoured in this way, says McMaster President David Farrar.

Provost Tighe is a valued member of McMasters academic and research community, and I look forward to her continued success.

About the Canadian Society for Civil Engineering

Established in 1887, the Canadian Society for Civil Engineering is a not-for-profit society that champions the advancement of high-quality civil engineering practice and research across the country.

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An engineer’s life: Them’s the breaks – Trains – TRAINS Magazine

Thems the breaks Taken at East Scenic, Wash., while waiting our turn on the Cascade Tunnel. F45 No. 6642 East on the morning of January 1980. This is the same spot in the story that we pulled up to for our dog catch crew to board. Believe it or not, we only had a 3 hour and 5 minute delay. Michael Sawyer

Late afternoon on Jan. 30, 2007, my conductor and I were called for the SSEALPC a stack train from Seattle to Logistics Park, Elwood, Ill., a suburb of Chicago. Our train that day was FURX No. 8117 as the lead unit of six, trailing us were 63 loads, zero empties, 5,924 tons and 5,729 feet. These trains were notorious for less than perfectly maintained power and one of the heavier trains without helpers or distributive power to travel east over Stevens Pass the BNSF Scenic Subdivision of the Northwest Division.

We started our trip by going on duty at Balmer Yard (ex-Great Northern) north of downtown Seattle and took a crew van to Stacy Street Yard (ex-Northern Pacific) just barely south of downtown. After I inspected the power, we backed onto the train. When the carman completed the air test, we doubled over and made our final brake pipe test. Stacy Street was by this time a stubbed yard, meaning everything departed south. However, there was a wye at Spokane Street, a half mile south from Stacy Street, we would take for our destination of Wenatchee and a crew change. We took the wye to head east. Just as we reached the main line, we got what I called a WOW this is where the power suddenly surges ahead due to a runout. It is not a comfortable feeling. We exchanged looks, I just shrugged, I had no clue what it was.

The trip was going nicely just rolling along then at Gold Bar we got another WOW. Again, we exchanged looks. I just silently shrugged as I still had no clue of the reason, though I was more concerned this time the first was at 10 mph, this second at 50 mph. Gold Bar is the start of the climb over the Cascades Mountains.

At Skykomish, we stopped to pick up my road foreman of engines. After our guest was on board and we reached the east end of Skykomish, we started up the 2.2% grade to Scenic and the Cascade Tunnels west end. There was fresh snow as we traveled up the hill.

Just after I took the clear (green) signal at West Scenic we got the final WOW with a POP as the train went into emergency braking.

My conductor started back to walk the train and find the problem, it didnt take long. We had broken in two just behind the power. At this point the road foreman got up, telling me to stay up front while he went in the back to help.

I was sitting there by myself stewing about what I had done wrong. At the time, a few engineers (including me) were using PalmPilots to help calculate the math on tonnage and horsepower versus grade. Another engineer had written the code, it was a great program. While my conductor was busy tying the train down about 20 minutes later I realized I had not heard from the road foreman. I stopped feeling sorry for myself and started to grow concerned about the road foreman. I walked back through the power and, leaning over the platform railing, asked him if he needed help. Oh yes, he said, I could use some help. Im trying to get this knuckle in, and it wont lock up.

The road foreman was using one hand to work the knuckle into place while holding up his pants with the other hand. His belt was holding up the cut lever. I offered to give him a break no pun intended while I tried. After few rounds of my own, I noticed the broken knuckle was a grade E, not a grade F like it should have been. Grade F couplers are stronger and better versions of Grade E. They are made so the parts are not interchangeable.

The broken knuckle was an E, according to the road foreman, which should have never happened. Someone somewhere got the wrong knuckle to lock up and it had failed. We had a little chat about it after we got the train back together and pulled up to the east end of Scenic to meet the dog catch crew.

My best guess was that with the wrong grade of knuckle on the last unit it was too much for a knuckle that already had a 50% break as a knuckle suffers from fatigue over time, a small fracture can start. This fracture will start to rust. In this case, the knuckle was 50% rusted, meaning it was failing before I got it. This would explain why I was getting WOWS and, of course, due to the law of railroading, it waited until the most inconvenient place to give up. I never heard anything more about it. I did fill out the proper paperwork. I didnt even have to mail it, I just handed it over to my road foreman, who had witnessed it all.

Like this column? Read the authors recent, An engineers life: What the heck are railroad fusees for?

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Nepal’s top engineering, forestry colleges to align on development and conservation – Mongabay.com

KATHMANDU Nepals leading civil engineering and forestry institutions are collaborating to bridge the divide between the two disciplines in an effort to mitigate the impact of roads, railways and other infrastructure on forests and natural resources.

Educators from Tribhuvan Universitys Institute of Engineering (IoE) and Institute of Forestry (IoF) are for the first time developing a joint curriculum on linear infrastructure for undergraduate civil engineering students and postgraduate forestry students.

Previously, our graduates focused solely on core engineering skills, Sushil Bahadur Bajracharya, a professor at the IoE, told Mongabay. The new course will enable them to add the new perspective of biodiversity conservation to their work.

Following the end of Nepals decade-long Maoist insurgency in 2006 and the introduction of a new constitution in 2015, theres been a surge in infrastructure development throughout the country. These range from roads and irrigation canals, to railways, cable cars and power lines. While proponents of these projects hail them as markers of progress, observers say they also threaten Nepals forests, which cover nearly 45% of the country. The building spree has increased the likelihood of infrastructure projects impacting these areas, which are critical habitats for such iconic animals such as Bengal tigers (Panthera tigris) and greater one-horned rhinos (Rhinoceros unicornis). Recent changes to conservation laws introduced by the government go even further by opening up protected areas to infrastructure such as power lines and cable cars.

Officials at the Ministry of Forest and Environment, primarily staffed by IoF graduates, often clash ideologically with their counterparts from the Ministry of Physical Infrastructure and Transport, dominated by IoE graduates. Engineers prioritize efficiency and safety, while foresters hesitate to issue permits for infrastructure through sensitive areas. This tension has led to back-and-forth accusations: foresters label their infrastructure counterparts as anti-nature, while engineers hit back with claims of anti-development.

Regardless of the labels, research indicates that linear infrastructure can directly harm wildlife through road kills, drowning and electrocution, and indirectly by fragmenting species populations. Animals like red pandas (Ailurus fulgens), which need large home ranges, suffer as a result of their habitats being carved up. Although completely avoiding these impacts is impossible, mitigation measures can minimize them but this calls for interdisciplinary communication, researchers say.

Theres currently a communication gap between the two fields of study, said Shant Raj Jnawali, senior adviser for biodiversity conservation at WWF Nepal. This issue needs addressing at the grassroots level, where engineers and foresters learn their basics, he said.

High-level officials from both sectors have started dialogues after years of deliberation, leading to the introduction of guidelines for wildlife-friendly infrastructure in Nepal. These guidelines establish minimum requirements for safe wildlife passage during infrastructure development and operation, including the building of over- and underpasses to help animals avoid vehicle traffic and power lines. However, opportunities for such dialogues at the student level have long been lacking.

At this grassroots, implementation of safeguard measures falls on the shoulders of civil engineers, mostly fresh graduates, leading construction efforts in Nepal. If we want impactful changes, we must start with civil engineers, Bajracharya said. Of the 40,000 or so registered engineers in Nepal, most are civil engineers, highlighting the need for this initiative.

The IoF already incorporates infrastructure development and safeguard courses at the undergraduate level, according to Sony Baral, assistant dean at the IoF. We needed specialization courses at the masters level, she added.

Supported by the WWF project Asias Linear Infrastructure safeGuarding Nature, or ALIGN, educators and researchers from both institutions have engaged in dialogues, workshops and consultations to draft curricula addressing linear infrastructure safeguards. They developed courses titled Natural Resources Safeguard in Infrastructure for both engineering and forestry students. The courses, which involve both theory and practice, are to be rolled out in the coming semesters.

This initiative demonstrates that development and conservation can coexist in Nepal, where they are often seen as opposites, Bajracharya said.

In Nepal, most large-scale infrastructure projects, such as expansion of major highways and power lines, receive funding from two multilateral agencies: the Asian Development Bank and the World Bank.

These donors are already integrating safeguards into projects, said Sandesh Hamal, chief of party at ALIGN, which is funded by USAID and operates in India, Nepal and Mongolia. Cross-disciplinary studies will create more opportunities for collaboration between employers and graduates.

However, the full impact on how infrastructure projects are rolled out remains uncertain, as students have yet to take up the new courses. Thakur P. Sharma, president of the Society of Consulting Architectural & Engineering Firms, said both institutions should monitor their students progress. They should periodically review and adjust the courses to meet the evolving market demands, he said.

Banner image: Greater one-horned rhinos in Chitwan, Nepal. Image by Aditya Pal via Wikimedia Commons (CC BY-SA 4.0).

Abhaya Raj Joshi is a staff writer for Nepal at Mongabay. Find him on @arj272.

Nepal govt bypasses parliament to allow commercial projects in protected areas

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Google Is Looking For Proposals to Push Boundaries in Distributed Quantum Computing – The Quantum Insider

Google is leveraging its success in modular computing to advance quantum technology. The companys Quantum AI team is developing superconducting qubit platforms, aiming to enhance robustness, cost efficiency and performance in data centers through distributed computing.

To support these efforts, Google is opening up an academic research program with awards of up to $150,000 USD for projects investigating quantum transduction and networking for scalable computing applications. Larger grants are available for exceptional experimental proposals that demonstrate a clear and compelling rationale for increased funding, the team added.

The shift to distributed quantum computing promises increased modularity and design robustness while significantly reducing control wiring and cryogenics requirements, according to information about Googles proposal request. The ability to process quantum data directly from its source could also lead to groundbreaking scientific discoveries, impacting both immediate experiments and the future architecture of Googles quantum devices.

Significant challenges remain, particularly in high-fidelity information transfer between superconducting qubits and optical photons, a process known as transduction. This technology is still in its early stages, and research to improve it is essential. The development of applications for distributed quantum systems, beyond parallel computing and quantum key distribution, is crucial for further progress.

Googles approach builds on the demonstrated advantages of modular computing over traditional monolithic architectures. These advantages include greater robustness, lower costs, and enhanced performance, benefits that are applicable from single-facility networks to global data-sharing systems. By applying these principles to quantum technology, Google aims to create more efficient and scalable quantum computing systems.

One primary benefit of distributed quantum computing within data centers is the potential for increased modularity. This modular approach allows for more robust system design, reducing the likelihood of system-wide failures. Additionally, it dramatically decreases the need for extensive control wiring and cryogenics, which are significant challenges in the development and maintenance of quantum computers.

Moreover, the ability of quantum technology to process data directly from its source could lead to unprecedented scientific discoveries. This capability enables the real-time analysis of quantum data, which could uncover new insights and advance our understanding of the universe. Such advancements are expected to have a profound impact on both the design of near-term experiments and the future architectures of Googles quantum devices.

Despite these promising prospects, the field faces significant hurdles. High-fidelity transduction, the process of transferring information between superconducting qubits and optical photons, remains underdeveloped. Improving this technology is critical for the advancement of distributed quantum computing. Research efforts must focus on enabling the seamless transfer of quantum information between different media, such as optical or flying microwave qubits.

Google has outlined specific research topics for proposals to address these challenges. These include the transduction of superconducting qubits to quantum transmission media like flying microwave qubits and optical qubits, and the direct transduction of alternative sensing or computing platforms, such as neutral atom arrays or defects in diamond, to superconducting qubits. Other research topics include the development of scientific or industrial applications for linked quantum systems with fewer than 50 logical qubits, and applications for multi-qubit quantum sensors linked to quantum computers via transduction to achieve exponential speedups in quantum learning.

According to Google, funds will be disbursed as unrestricted gifts to universities, not intended for overhead or indirect costs.

Eligibility for these awards is open to professors at universities or degree-granting research institutions. Proposals must be related to computing or technology, and applicants can only serve as Principal Investigator (PI) or co-PI on one proposal per round, with a maximum of two PIs per proposal. Proposals should align with Googles AI Principles and demonstrate potential for significant impact.

Google Quantum AI will host informational sessions with live Q&A to discuss these technologies and their potential applications. Interested parties can RSVP here.

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