The Pre-Process of Smart Grid Algorithm Design For Network Centric Air Operation during Crisis Management
Keywords:
Association of Southeast Asian Nations (ASEAN),, Energy assurance, Energy Management System (EMS), Five Ring Model, Humanitarian Assistance and Disaster Relief (HADR), Military Operation Other Than War (MOOTW), NCO (Network Centric Operation), Renewable energy, Smart Grid (SG)IntroductionAbstract
From the COP21 Paris Agreement 2015, the
committees have agreed to reduce the energy consumptions that
are produced from coal and fossil. As in effect to the developing
countries as similar as the Association of Southeast Asian
Nations (ASEAN) because these energy resources are still used
widely and high demand for supporting micro-economic level.
Furthermore, the coming ASEAN challenge is how to cooperate
and sustain the energy assurance against with a disastrous crisis
that has created the non-stabilize electrical power has fed into
the essential infrastructure of network centric operation (NCO)
as well as degrading military operation other than wars
(MOOTW) and Humanitarian Assistance and Disaster Relief
(HADR) capability. The smart grid is one of the ways out for
trouble shooting by effective renewable energy management in
Thailand. By the way, the key energy management system
(EMS) is a reasonable algorithm which shall be designed to
properly recognize the core of the essential demand response
and understanding the renewable energy characters are
inflexible and unpredictable. The proposed study approach is
how to maintain air operational capability, energy assurance,
and human assistance during humanitarian catastrophe. The
HADR mission requirement, the NCO concept, and the five
rings model is mainly integrated into the specific design of
smart grid development tool. The results of study indicate
energy assurance design model that is able to secure the
essential of air operational process failures on the significant
NCO concept which is improved by Smart Grid.
