disaster mitigation sort by issue
Every year sees its share of oil spills, gas leaks or industrial explosions that could have dire consequences for human beings as well as for the environment. They can be caused by the wrong or faulty equipment, poor maintenance and/or by poor operating procedures or mistakes.
Natural and industrial or accidental disasters can take many forms and have devastating human and material consequences. Some may be prevented or their impact mitigated through forecast, others not. Rescuing victims and repairing damage are essential for a return to normal life. Standardization work by a number of IEC technical committees (TCs) and subcommittees (SCs) may help warn of impending disasters as well as aid in assessing, repairing and mitigating their consequences.
Natural disasters strike at regular intervals on our planet. As their number seems to be increasing over the years, numerous measures have been taken, at the national, regional or international level, to help prevent them or to mitigate their impact.
Natural and industrial or accidental disasters can take many forms and have devastating human and material consequences. Some may be forecast, others not, and there may be a range of significantly different outcomes. Standardization activities by a number of IEC technical committees (TCs) and subcommittees (SCs) may help warn of impending disasters as well as aid in assessing and mitigating their human and economic impact.
Rapid advances in technology are revolutionizing the roles of aerial, terrestrial and maritime robotic systems in disaster relief, search and rescue (SAR) and salvage operations. Robots and drones can be deployed quickly in areas deemed too unsafe for humans and are used to guide rescuers, collect data, deliver essential supplies or provide communication services.
Long gone is the time when populations knew of an earthquake when it was actually happening, when rescue teams cleared rubble with their bare hands, when it took days to deliver food and medical supplies to devastated and isolated areas in the aftermath of natural disasters. Technology now plays a major role not only in disaster relief but also in disaster prevention and mitigation.
Manufacturing continues to expand its geographic reach. Electrical and electronic goods now represent 17,7% of global trade and more companies than ever need to be able to collaborate and participate in the value chains that span the globe. IEC work uniquely enables this type of cooperation. Industry is a high priority for IEC, since most experts participating in our work come from it.
Take the 169 countries in the IEC family, the 20 000 technical experts who work in standards development, the many Certification Bodies (CBs) and Test Laboratories (TLs) in the IEC Conformity Assessment (CA) Systems, and add to the mix the rapid pace at which technologies are evolving today and you have hundreds, if not thousands of stories that can be told within the IEC community.
With 166 countries in the IEC family, more than 15 000 technical experts who work in standards development, hundreds of CBs (Certification Bodies) and TLs (Test Laboratories) in the IEC CA (Conformity Assessment) Systems, there is no shortage of stories to be told within the IEC community. In 2016, as in previous years, the e-tech editorial team will be reaching out to you to get your story.
- conformity assessment (258)
- JTC1 (97)
- sensors (96)
- safety (94)
- IECQ (88)
- IECEE (85)
- IECEx (84)
- IoT (80)
- energy efficiency (63)
- renewable energy (53)
- electronic components (49)
- cyber security (47)
- batteries (44)
- internet of things (42)
- explosive atmospheres (41)
- SDG11 (39)
- International Standards (38)
- LED (38)
- Smart Cities (37)
- AAL (35)