Design Thinking Simulation at Grace Hopper Conference 2016 @GHCI16

We love Design Thinking!

Somebody send us this link last week, on the 2 hour “Design Dive” simulation Anirban ran at the Grace Hopper Conference in December. For 130+ women leaders.

Disclaimer, while the flow and design is ours, the activity isn’t our original (it is a Stanford d.School free resource). But it was great fun, the entire journey from Empathy to Ideate to Prototype. And the response has been through the roof!

Thank you!

HBR: Use Design Thinking to Build Commitment to a New Idea

A great read:

HBR: Use Design Thinking to Build Commitment to a New Idea

Roger L. Martin
JANUARY 03, 2017

 

The logic we use to understand the world as it is can hinder us when we seek to understand the world as it could be. Anyone who comes up with new ideas for a living will recognize the challenges this truism presents. It means that to get organizational support for something new, the designer needs to pay as close attention to how the new idea is created, shared, and brought to life as to the new idea itself.

The Normal Way of Generating Commitment…

Normally, we commit to an idea when we are rationally compelled by the logic of the idea and we feel emotionally comfortable with it. In the modern world, we focus disproportionately on the logic, assuming that the feelings will naturally follow. Analysis has become the primary tool in this regard. A logically plausible proposition, combined with supporting data, is presented to produce a cognitive “sense of proof.” Hence the modern equation is: logic plus data provides proof, which generates emotional comfort, which leads directly to commitment.

More here.

Daily Design Inspirations 33: Abraham Wald and the Missing Planes (#dailydesigninspirations)

During World War II, the UK and U.S. focused their air warfare plans on the use of strategic bombing, employing long- and short-range aircraft to lead the way and provide ground infantry with an upper hand. Much of the industrial war complexes of both these nations were focused on producing planes, and ensuring the safe return of an expensive, slow-to-produce bomber was a priority. After all, a plane that can make five or perhaps ten runs was worth much more than one which failed to return after a mission or two.

And many planes were being shot down by German fire, and the casualties were huge. In some years of World War II, the chances of a member of a bomber crew making it through a tour of duty were about the same as calling heads in a coin toss and winning. As a member of a World War II bomber crew, you flew for hours above an entire nation that was hoping to murder you while you were suspended in the air, huge, visible from far away, and vulnerable from every direction above and below as bullets and flak streamed out to puncture you. “Ghosts already,” that’s how historian Kevin Wilson described World War II airmen.

Where to Armour?

So here was the question. You don’t want your planes to get shot down by enemy fighters, so you armour them. But armour makes the plane heavier, and heavier planes are less manoeuvrable and use more fuel. Armouring the planes too much is a problem; armouring the planes too little is a problem. Somewhere in between there’s an optimum.

The Statistical Research Group (SRG) was a classified program that yoked “the assembled might of American statisticians to the war effort—something like the Manhattan Project, except the weapons being developed were equations, not explosives. The military came to the SRG with some data they thought might be useful. When American planes came back from engagements over Europe, they were covered in bullet holes. But the damage wasn’t uniformly distributed across the aircraft. There were more bullet holes in the fuselage, not so many in the engines.

bullitholes

The officers saw an opportunity for efficiency; you can get “the same protection with less armour if you concentrate the armour on the places with the greatest need, where the planes are getting hit the most. But exactly how much more armour belonged on those parts of the plane?

220px-abraham_wald_in_his_youthEnter Abraham Wald, who was working at SRG at that time. Born in Hungary in 1902, the son of a Jewish baker, Wald spent his childhood studying equations, eventually working his way up through academia to become a graduate student at the University of Vienna where the great mathematician Karl Menger mentored him. As he advanced the science of probability and statistics, Wald’s name became familiar to mathematicians in the United States where he eventually fled in 1938, reluctantly, as the Nazi threat grew. His family, all but a single brother, would later die in the extermination camp known as Auschwitz.

And Wald came up with an interesting idea to the question of how much armour, and where.

The armour, said Wald, doesn’t go where the bullet holes are. It goes where the bullet holes aren’t: on the engines.

Wald’s insight was simply to ask: where are the missing holes? The ones that would have been all over the engine casing, if the damage had been spread equally all over the plane? Wald was pretty sure he knew.

The Missing Planes

The missing bullet holes were on the missing planes. The reason planes were coming back with fewer hits to the engine is that planes that got hit in the engine weren’t coming back. Whereas the large number of planes returning to base with a thoroughly Swiss-cheesed fuselage is pretty strong evidence that hits to the fuselage can (and therefore should) be tolerated. If you go the recovery room at the hospital, you’ll see a lot more people with bullet holes in their legs than “than people with bullet holes in their chests. But that’s not because people don’t get shot in the chest; it’s because the people who get shot in the chest don’t recover.

Wald put together a crude before-and-after diagram. The “after” image — the plane on the right — showed where the majority of the damage was, as indicated by the shaded regions. Wald determined that most of the plane — the wings, nose, and fuselage — had taken the worst beating, while the cockpit and tail were generally unharmed.

 

plane_damage

Wald theorized that the fact that the planes lacked damage in the cockpit and tail was more telling. Certainly, the Axis’ targeting of Allies’ planes was both indiscriminate and imprecise; there was little reason to believe that the Axis forces were aiming for, say, the nose, and intentionally avoiding striking the tail. Some planes had to have taken significant damage to the tail and cockpit, and all of those planes had something in common: they, unlike the ones in Wald’s data set, did not return back to base.

On Wald’s advice, the U.S. military leadership reinforced the cockpits and tails on its planes. The number of planes (and lives) saved during the World War and Korean and viet Nam wars are difficult to estimate, but the impact of this idea was huge.

 

Daily Design Inspirations 32: 13 inspiring examples of design thinking from Japan (#dailydesigninspirations)

Great piece I read today.

As digital technology becomes more sophisticated and penetrates more parts of our lives, the importance of design thinking increases, too.

Earlier this month, I was lucky enough to spend a week or so in Japan and there were several bits of everyday and unassuming design that struck me.

Read on. 

Daily Design Inspirations 32: Design thinking can help Swachh Bharat (#DailyDesignInspirations)

An excellent, timely piece in Livemint.com. Can we go beyond the hype and soundbytes and use Design Thinking to change the fortunes of the movement? Can Design Thinking be used to better reframe the problems, change mindsets, and come up with real solutions? 

Livemint: Design thinking can help Swachh Bharat

Amrita Chowdhury, 13th October 2016

As we look at the second anniversary of the launch of the Swachh Bharat Mission, we cannot but acknowledge how far the conversation has progressed on the vision and yet how little the needle has shifted on the outcomes.

The difference is starker in our urban areas. Cities are the windows to the nation, where the most vocal residents reside and the most influential visitors arrive. Naturally, then, the Swachh Bharat Mission efforts in cities are critical in making opinions about the efficacy of the programme itself. Rural toilet construction statistics notwithstanding, what hits us most is visible urban waste and the crumbling waste management infrastructure.

But is it just that?

Read on.

 

Design Thinking in HR! The idea of “Employee Experience Enhancement”

“Employee Experience Enhancement”. The idea that we are driving forward through our DT4HR Initiative. Using Design Thinking to improve the employee’s journey, from before joining to after leaving. Built on the principle of Empathy and Action.

Here’s a great video, on those lines.

Design Thinking News: How Design Thinking Creates Connected Health Devices That Matter

Daily Design Inspirations 31: Joe Gebbia: “Design the Farm!” (#dailydesigninspirations)

Just yesterday, at the end of a Design Challenge, we were discussing the age-old battle between the designer and the product manager. And the oldest question that is asked of a start-up: which should come first.

Joe Gebbia, in this brilliant interview points out that one doesn’t need to think that way. But design the farm instead!

Excellent watch! Here on youtube.

Joe Gebbia
Joe Gebbia