They often say that a baby is like a blank canvas, ready to be painted with life’s experiences. However, this canvas isn’t entirely blank, as certain factors like illnesses can be passed down from generation to generation. Nevertheless, the idea that a baby is a vessel waiting to be shaped remains compelling.
If we consider this notion, it leads to intriguing reflections on the story of Jesus. When Jesus, the divine being, laid down his divinity and became a baby, it can be seen as a form of symbolic death. The Jesus who presumably had a distinct personality ceased to exist in the same way, and he was then raised in a human context. His character would have been influenced by his surroundings, but with a unique twist – his development wasn’t solely shaped by humanity, but also guided by God.
What makes this story extraordinary is that Jesus wasn’t influenced by mere mortals but by the divine. Additionally, he would have been taught by angels, adding another layer to the shaping of his character. It’s plausible to imagine that his character, while shaped by the human experience, carried a divine essence that set it apart.
As the narrative goes, when Jesus, after his human life, was restored to his full divine power, it’s mysterious to ponder what it felt like when all the knowledge and experiences from his previous existence came flooding back. This enigmatic transformation and combination gives rise to the concept of the creation of a “God-man” – someone who has now experienced both the limitations of humanity and the boundless power of divinity. How awesome, how wonderful and what a sacrifice.
In essence, Jesus underwent a symbolic death twice – first by laying down his divinity to become human and then by returning to his divine form after his human death. This profound journey is often viewed as the creation of a bridge between the divine and humanity, connecting two realms in a way that transcends ordinary understanding.
Small projects often embody more innovation than larger more costly or high profile ones.
Innovation is a wide concept that includes improvements in processes, products and services. It involves incorporating new ideas which generate changes that help solve the needs of a company and so increase its competitiveness. That’s hardly big news. But what may be surprising to some is that innovation has itself, well, innovated and it isn’t what it used to be.
New materials and energy, design approaches, as well as advances in digital technology and big data, are creating a wave of innovation within the construction industry. These new ideas are increasingly often tested and proven on smaller and agiler projects. Investing time and money is well spent on these ideas and technical improvements can then be used on large-scale developments.
Here are three exciting small projects:
Vanke Pavilion – Milan Expo 2015 / Daniel Libeskind
Vanke Pavilion – Milan Expo 2015 / Daniel Libeskind
VANKE PAVILION Milan, Italy
1. Vanke Pavilion – Milan Expo 2015
The corporate pavilion for Vanke China explores key issues related to the theme of the Expo Milano 2015, “Feeding the Planet, Energy for Life”.
Situated on the southeast edge of the Lake Arena, the 800-square meter pavilion appears to rise from the east, forming a dynamic, vertical landscape.
The original tiling pattern would have resulted in thousands of ceramic tiles of different sizes and shapes. The resulting complexity and lack of repetition could have led to high costs and a longer erection time.
Working with Architects Studio Libeskind, Format Engineers (Engineering Designers with backgrounds in structural engineering, coding, mathematics, and architecture) changed the pattern from thousands of different tiles to less than a dozen and simplified the backing structure generating huge cost savings. Format Engineers also proposed ‘slicing’ of the building and then fabrication of the primary structure of steel ribs using low tech flat steel plate elements. These were then used in a series of long span portalised frames reminiscent of the ribs and spars in traditional boat building resulting in a column-free area for the display of Chinese Cultural Heritage.
The frame was built to a budget and without difficulty ahead of the neighboring Expo buildings.
Building Size
12 meters high
740 mq gross floor area (exhibition, service & VIP levels)
130 mq roof terrace
Architect: Studio Libeskind
Engineer: Format Engineers
Oxford Brookes Rain Pavilion
Oxford Brookes Rain Pavilion
Oxford Brookes Rain Pavilion
2. Oxford Brookes Rain Pavilion
The Rain Pavilion is an urban forest sculpture forming the front entrance to Oxford Brookes University’s Architecture Faculty.
“Rain Pavilion artwork is a sensory experience for the community.”
The complex form required extensive wind modeling and comprehensive structural analysis within a generative 3d model. This was allied with Format Engineers in-house code for the self-organization of voids and their subsequent redistribution.
.At each stage of the design process different modeling and analysis techniques were used to exploit the form and to optimise the structure. The considerable challenges posed by the slenderness of the structure and its dynamic behavior under wind were resolved by combining Computational Fluid Dynamics (CFD) (a branch of fluid mechanics that uses numerical analysis and algorithms to solve and analyze problems that involve fluid flows) with a generative design environment. Conceptual design introduced the ideas of tubular stems and folded steel canopies, both of which were perforated by circular holes arranged to allow the interplay of light and water through the structure. The voids were generated using a self-organizing process.
Grasshopper (a graphical algorithm computer 3-D modeling tool) was used to produce a mesh that could include the voids in both the stems and the petals.
The Rain Pavilion is designed to celebrate the sound of rain, and the noise of water interacting with different sections of the installation is part of the experience of passing through it. The structure has a design life of five years and can be transported to other locations.
Architect: Oxford Brookes University, Oxford, UK
Engineer: Format Engineers
KREOD Pavilion
KREOD Pavilion
KREOD Pavilion
3. KREOD Pavilion
The KREOD pavilions were first erected on the London Greenwich Olympic site in 2012. Easily rearranged, three pod-like pavilions were formed with a wooden structural framework comprised of an open hexagonal composition.
Standing three meters tall, each double-curved wooden shell enclosed a footprint of 20 square meters, totaling 60 square meters. A waterproof tensile membrane sealed the interior from the elements fully portable with demountable joints, the individual components can be stacked for efficient transportation.
Chun Qing Li the architect required a temporary exhibition or function space that could be erected and demounted mostly by hand and by untrained staff. The quality of finish needed to echo that of handmade furniture and had to be low cost and quick to erect. The continuously changing double curved form of the enclosure meant that in theory, every nodal connection was different. A conventional bolted solution would have cost hundreds of pounds per fixing. Format Engineers suggestion of a ‘reciprocal’ jointed timber grid shell required standard bolts which equated to a fraction of the normal cost. It also allowed the structure to be built from simple and light flat timber elements.
The structure used Kebony timber throughout, a sustainable alternative to tropical hardwood. As this material had not previously been used in a structural context Format Engineers undertook load testing of the material and the connections at the University of Cambridge. The timber was fabricated using CNC routing (a computer controlled cutting machine) allowing a highly accurate fit between members and basic erection on site.
If you treat risk management as a part-time job, you might soon find yourself looking for one ’- Deloitte white paper (Putting Risk in the Comfort Zone)
I have learned that nothing is certain except for the need to have strong risk management, a lot of cash, the willingness to invest even when the future is unclear, and great people ’- Jeffrey R. Immelt
Thoughtfully assessing and addressing enterprise risk and placing a high value on corporate transparency can protect the one thing we cannot afford to lose trust ’- Dale E. Jones, vice chairman and partner with Heidrick & Struggles
We have no future because our present is to volatile. Will only have risk management ’- William Gibson
Risk management is a culture, not a cult. It only works if everyone lives it, not if its practiced by a few high priests ’- Tom Wilson
I think the rise of quantitative econometrics and a highly mathematical approach to risk management was the obverse of a decline in interest in financial history ’- Niall Ferguson
There is no doubt that Formula 1 has the best risk management of any sport and any industry in the world ’- Jackie Stewart
Stronger regulation and supervision aimed at problems with underwriting practices and lenders’ risk management would have been a more effective and surgical approach to constraining the housing bubble than a general increase in interest rates ’- Ben Bernanke
If you don’t invest in risk management, it doesnt matter what business you’re in, it’s a risky business ’- Goldman Sachs president Gary Cohn
Adventure without risk is Disneyland ’- Douglas Coupland
Risk and time are opposite sides of the same coin, for if there were no tomorrow there would be no risk. Time transforms risk, and the nature of risk is shaped by the time horizon: the future is the playing field ’- Peter Bernstein, Against the Gods
As population susceptibilities are better understood, we will be in a better position than we are in today to make informed decisions about risk management ’- Samuel Wilson
Take calculated risks. That is quite different from being rash ’- General George Patton
All courses of action are risky, so prudence is not in avoiding danger, but calculating risk and acting decisively ’- Niccolo Machiavelli
Total enterprise risk management is critical, but implementing it is both expensive and easier said than done. Even the most sophisticated financial institutions are still basically silo risk managers ’- Danny Klinefelter, Professor and Extension Economist with Texas AgriLife Extension, Texas A&M University
Playing it safe is the riskiest choice we can ever make ’- Sarah Ban
The question of whether or to what extent human activities are causing global warming is not a matter of ideology, let alone of belief. The issue is simply one of risk management ’- Malcolm Turnbull
Business people need to understand the psychology of risk more than the mathematics of risk ’- Paul Gibbons,
Risk comes from not knowing what your doing ’-Warren Buffett
You have to take risks. You will only understand the miracle of life fully when we allow the unexpected to happen ’- Paulo Coelho
Risk is a function of how poorly a strategy will perform if the ‘wrong’ scenario occurs ’- Michael Porter, Competitive Advantage
Risk management should be an enterprisewide exercise and engrained in the business culture of the organisation ’- OSFI Superintendent Julie Dickson, June 1, 2011 (courtesy Ethidex)
Risk is our business ’- Oswald Grübel, CEO at UBS
When our leaders accept the status quo, we run the risk of disaster ’- Max Bazerman from “Predictable Surprises”
The concept of ‘inherent risk’ is impossible to measure or even define. The idea of looking at risk absent all hard controls, soft controls, or mitigations, provides little or no useful information in most cases ’- Todd Perkins (from Journal of Applied Corporate Finance – volume 19 number 4)
It’s important to take risks but it’s idiotic to take them blindly ’- Terry Levine
Fail to identify the strategic risks and you fail as a business, no matter how well you manage your operational and project risks ’- Keith Baxter
Business as usual is business at risk ’- Deloitte white paper
Risk management is the identification, assessment, and prioritisation of risks ’- Wikipedia
MoMo apartments – Architect, Allford Hall Monaghan Morris LLP
Zero defects are the primary battleground between traditional and modern construction methods. A relative concept, zero defects is, however, a target that the construction industry has set for itself. Primary considerations are structural stability and keeping the water out. Proper functioning of services, components, fixtures, and fittings are essential.
Energy and sound performance are also vital, as well as issues of safety, access, and security. This is a campaign which will be fought in years to come… and in the meantime here is another prefab scheme which feature’s in these skirmishes.
Mobile Modular (MoMo) is a research development project for a relocatable system of mass housing constructed from specially fabricated shipping containers. This type of system allows flats to be erected speedily on short-life sites and to be demounted and re-assembled in different configurations on other sites in the future.
The key objectives:
Remove MoMo apartments from a site where housing has been provided for 5 years.
Refurbish Each module at the supplier’s yard or an alternative temporary site.
Re-locate The apartments in any new configuration to provide decanting, short-term housing, permanent apartments. This type of system can also become a permanent housing solution.
Originally commissioned by the Peabody Trust, after feasibility stage, the team was invited to take the project forward with their own initiative. The team formed a consortium with the aim of developing a prototype to demonstrate the principles, and to market the MoMo scheme as a one-stop shop package to interested parties.
The Ideal Home exhibition has not always been the first place to look for cutting edge housing design in recent years. But in 2002 two ground-breaking apartments were demonstrated – the Live-in Quarters concept house and the Space over keyworkers prototype. Over 10,000 visitors to the exhibition registered their interest in gaining further information when construction started, thus proving the enormous demand for high-quality accommodation of this kind.
Live-in Quarters (LQ) is both developer and manufacturer waiting to supply the London market. It has produced a family of concept houses for low-cost accommodation designed to suit single people and key workers. It has been set up specifically to deal with the problems of London and anticipates high rise schemes of six to 12 stories built in a galvanized lightweight steel frame. LQ propose to have their own factory located in East London. LQ customers are seen as those who wish to get on to the first rung on the property ladder, frequently key workers and single people earning less than £30,000 a year. They took a brief from Keep London Working, the result of which was the 26m2 flat exhibited at the Ideal Home Exhibition which provided total privacy and security with individual showers, WC, and kitchens. They also exhibited a two-story unit where the first floor contained an executive 33m2 studio. In addition to the normal options for mortgage purchase, shared equity and rent, they are planning to offer a new form of tenure called equity rent. In simple form, this enables residents to convert their rent into a percentage of the equity depending on the period of time they stay in the property without any risk of negative equity.
