ENTRIES TAGGED "complex systems"
Velocity 2013 Speaker Series
There’s an old joke about the aviation cockpit of the future that it will contain just a pilot and a dog. The pilot will be there to watch the automation. The dog will be there to bite the pilot if he tries to touch anything.
Although they will all deny it, the majority of modern IT developers have exactly this view of automation: the system is designed to be self regulating and operators are there to watch it, not to operate it. The result is current systems are often inoperable, i.e. systems they cannot be effectively operated because their functions and capacities are hidden or inaccessible.
The conceit in the pilot-and-the-dog joke is that modern systems do not require operation, that they are autonomous. Whenever these systems are exhibited, our attention is drawn to their autonomous features. But there are no systems that actually function without operators. Even when we claim they are “unmanned”, all important systems have operators who are intimately involved in their function: UAV’s are piloted, the Mars rover is driven, the satellites are managed, surgical robots are manipulated, insulin pumps are programmed. We do not see these activities–many are performed by workers who remain anonymous–but we depend on them.
Abstraction problems, resilience engineering and outliers among Velocity's big themes.
Mike Loukides highlights talks from Velocity 2012, including: Bryan McQuade on the importance of understanding the full stack, Dr. Richard Cook on failures and complex systems, Mike Christian on redundant data centers, and John Rauser on the value of outliers.