Thinking differently


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craig jackson

June 23rd, 2010

After sleep, work is the biggest sole occupier of people’s time.

And work isn’t necessarily all good for you. The traditional causes of the diseases of working lives were physical — chemicals, gases, fumes, metals and toxins, viruses and dusts. Add in too the ergonomics of some work, long working hours, the diurnal disturbances due to shift work.

Such were the concerns of occupational medicine until the mid-1990s. Since then, there has been growing awareness of psychological hazards as the root cause of many health problems in the workplace.

Given the importance of work in our lives, argues Professor Craig Jackson, the occupational arena is the best forum for improving public health and combating chronic health problems such as diabetes or obesity or mental health problems.

Professor Jackson is Head of the Psychology Division and Professor of Occupational Health Psychology at Birmingham City University.

His main research interests are in how workplaces and working affect people’s health and psychological well-being. He has specific interest in unusual and rare occupations, work-related suicide, and emerging issues such as technology change, workplace cultures and new working practices. He maintains a research interest in some of the traditional issues such as pesticides, metal and chemical exposures, and working hours

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rebecca cain

June 23rd, 2010

Most humans, like other primates, are highly visual animals. Sounds, however, is an important sensory input to how we ‘see’ and navigate our lives. And too much noise,we become disorientated, anxious, even angry — and with due cause, as it can damage our hearing irreparably.

But by sticking to the current paradigm of noise control, says Dr Rebecca Cain, we’re actually missing a trick. What’s desirable in our soundscapes has had little impact on quantitative engineering acoustics. Intriguingly, it seems it’s not really the sound itself that people respond to, but what that sound represents.

Dr Cain is a Senior Research Fellow in the Experiential Engineering Group, in Warwick Manufacturing Group at the University of Warwick.

Originally trained as an industrial designer, she now works across multi-disciplinary teams to connect engineering to real people. Her research interests are in how humans’ subjective reactions to products and environments can be communicated in a meaningful way to scientists and engineers.

Applications from her research are in urban soundscapes, automotive design and healthcare environment design.

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james shippen

June 23rd, 2010

If you wanted to avoid injury would you choose to be a racing driver, a footballer, a ballet dancer or a builder?

The answer may surprise you. Not only do dancers have to jump, land, twist and stretch, but they have to appear elegant and effortless at the same time.

Engineers such as Dr James Shippen know a great deal about loads in structures. Thinking of a dancer’s body as very complicated structure has led to has enabled engineers such as him to solve some of the demanding biomechanical problems that dancers present.

Dr Shippen is a Chartered Mechanical Engineer with industrial experience in the medical, automotive, defence and aerospace industries.  He is currently employed in the Industrial Design department at Coventry University where he researches mathematical modelling and stimulation of biomechanics and develops analysis code to solve biomechanical problems.

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david hukins

June 22nd, 2010

Our view of science tends to be compartmentalised. But scientists from different disciplines often work together. Their very differences provide new insights, perspectives and understanding. Sometimes such collaborations lead to innovative technologies.

Take David Hukins, for example. A former Professor of Physics at Aberdeen, he’s now Professor of Biomedical Engineering and Head of Mechanical Engineering at the University of Birmingham. His seemingly disparate knowledge and skills is particularly valuable when dealing with the structure, function, failure, replacement and repair of tissues and parts of the human body.

We’re already familiar with the success of joint replacement. They have improved dramatically in the last few years. People are recovering more quickly from the operation, and the joint itself is lasting much longer. This is in part due to the skill of surgeons. It’s largely due, however, to new materials and new engineering.

Professor Hukins is involved in the development of new methods for engineering surfaces, and new coating materials and techniques so that artificial joints are even more successful. Because of this kind of work, a start has been made in replacing the intervetebral joints of the spine.

Tissue engineering, in its infancy, has already been used to repair cartilage.

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