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General Stanley McChrystal

Team of teams

The U.S. Army's experience in Afghanistan and Iraq showed that hierarchies fall short against networks. Success came when they embraced a network approach. This lesson applies broadly: today's organizational success hinges on building resilient, adaptable networks aligned with strategic goals. Efficiency matters, but so does adapting to constant change. Success isn't about comfort or avoiding criticism; it's about achieving goals, even if that means change, as General Stanley McChrystal emphasizes.

Team of teams
Team of teams

book.chapter Necessity of change

The United States' military engagement in Iraq presented an unexpected challenge when faced with Al Qaeda in Iraq (AQI). The U.S. military, equipped with the world's most advanced and elite forces, anticipated a swift victory over what appeared to be a disorganized group of insurgents. However, the reality of the conflict defied expectations, as the U.S. struggled to adapt to a new kind of warfare against an unconventional foe. AQI's structure was a stark contrast to the traditional military hierarchy of the U.S. Army. Instead of a clear chain of command, AQI operated as a network of small teams, often comprising just two or three individuals. These cells utilized the Internet and social media to broadcast their actions, making it difficult for the U.S. to identify and target influential leaders within the group. The claim that the U.S. Army had repeatedly killed AQI's "number three" became a running joke, highlighting the futility of such a strategy against a network where everyone could be considered a "number three." The insurgents' tactics of blending into the civilian population and using common vehicles further complicated the U.S. military's efforts. Traditional large-scale operations proved ineffective, prompting a shift to smaller, more targeted sorties, often conducted at night from helicopters. Despite these efforts, the AQI network demonstrated a remarkable ability to reorganize and continue its activities, rendering the U.S. Army's increased efficiency moot. In response, the U.S. Army turned to a "Big Data" approach, gathering live video feeds from drones and cameras on the ground. However, the rapidly changing battlefield conditions meant that by the time the data was analyzed and a response formulated, the situation had already evolved, making it impossible to predict AQI's movements with any certainty. General McChrystal acknowledged AQI's success, noting the group's organic and associative network that maintained coherence and agility even as it expanded. The Task Force eventually recognized that AQI's "secret sauce" was resilience—the ability to absorb disturbances and maintain core functions and structure. This resilience allowed AQI to outlast and outperform the superior Task Force. The concept of resilience is highly relevant in today's complex business environment, where markets are constantly evolving. Traditional optimization strategies are less effective in such a dynamic system, as optimizing one aspect of a business model can quickly become obsolete due to market shifts. Instead, developing resilience enables businesses to adapt and thrive amidst change. The resilience of a system is exemplified by the comparison between the pyramids of Egypt and Australia's Great Barrier Reef. While the pyramids have endured through centuries, their robustness would not allow them to recover from catastrophic damage. In contrast, a coral reef can regenerate after significant weather events, demonstrating the superiority of resilience over robustness, particularly in the face of unpredictable disruptions. To defeat AQI, the U.S. Task Force had to transform itself into a network, embodying the principle that it takes a network to defeat a network. This lesson extends to the business world, where resilience and networking are key to excelling in a complex marketplace. As Peter Drucker famously said, "Efficiency is doing things right; effectiveness is doing the right thing." Similarly, environmentalists David Salt and Brian Walker caution against over-optimizing elements of a complex system, as it can reduce the system's overall resilience, making it more susceptible to shocks and disturbances. In essence, the drive for efficiency should not come at the expense of the system's ability to withstand and adapt to unexpected changes.

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