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In applied physics, the concept of controlling self-organized criticality refers to the control of processes by which a self-organized system dissipates energy. The objective of the control is to reduce the probability of occurrence of and size of energy dissipation bursts, often called avalanches, of self-organized systems.  Dissipation of energy in a self-organized critical system into a lower energy state can be costly for society, since it depends on avalanches of all sizes usually following a kind of power law distribution and large avalanches can be damaging and disruptive.

In applied physics, the concept of controlling self-organized criticality refers to the control of processes by which a self-organized system dissipates energy. The objective of the control is to reduce the probability of occurrence of and size of energy dissipation bursts, often called avalanches, of self-organized systems.  Dissipation of energy in a self-organized critical system into a lower energy state can be costly for society, since it depends on avalanches of all sizes usually following a kind of power law distribution and large avalanches can be damaging and disruptive.

在应用物理学中，<font color="#ff8000"> 控制自组织临界性Controlling self-organized criticality</font>的概念是指自对组织系统耗散能量的过程的控制。这种控制的目的是减少自组织系统发生能量耗散爆发(通常称为雪崩)的概率和规模。将一个自我组织的临界系统中的能量耗散转变到较低的能量状态对社会来说可能是代价高昂的，因为它依赖于各种规模的雪崩，这些雪崩通常遵循一种<font color="#ff8000"> 幂律分布Power law distribution</font>，大规模雪崩可能具有破坏性和破坏性。

在应用物理学中，<font color="#ff8000"> 控制自组织临界性Controlling self-organized criticality</font>的概念是指对自组织系统耗散能量的过程的控制。这种控制的目的是减少自组织系统发生能量耗散爆发(通常称为雪崩)的概率和规模。将一个自我组织的临界系统中的能量耗散转变到较低的能量状态对社会来说可能是代价高昂的，因为它依赖于各种规模的雪崩，这些雪崩通常遵循一种<font color="#ff8000"> 幂律分布Power law distribution</font>，大规模雪崩可能具有破坏性和破坏性。