MINISTRY OF COMMUNICATION AND INFORMATION …itfind.or.kr/smartkorea/2011/indonesia.pdf · ICT...
Transcript of MINISTRY OF COMMUNICATION AND INFORMATION …itfind.or.kr/smartkorea/2011/indonesia.pdf · ICT...
Aizirman Djusan
Head of ICT Research and Human Resources Development
MINISTRY OF COMMUNICATION AND INFORMATION TECHNOLOGY REPUBLIC OF INDONESIA
SMART KOREA 2011
ICT POLICY AND DEMAND IN INDONESIA
ICT DEVELOPMENT IN INDONESIA IS DERIVED FROM INDONESIA’S CONSTITUTION ARTICLE 28
“Everyone is entitled to communication and information acquisition for the purpose of personal development and social environment and entitled to find, acquire, posses, store, process, and disseminate information by using various available channels”.
National Industrial Policy
(The Presidential Regulation No.28/2008)
• ICT has been recognized as a mainstay industry of the future
• ICT is a metainfrastructure, which is becoming an important prerequisite for maintaining the sustainability of economic growth
• Development of ICT should continue to be accelerated in order to improve the nation’s competitiveness to create knowledge based economy
• In that context, IT policy is regulated. Government of Indonesia (GOI) launched ICT-related laws of telecommunication, broadcasting, e-government, information and electronic transaction, and public information accountability
PALAPA RING
Notes :
Universal Service Obligation (USO)
ICT USER PROTOTYPES
Source : ICT White Paper, 2010
DATA AND FACT
All major cities in Java and other main islands have been connected by fiber-optic backbone network The ICT market is growing from year to year. In 2009,
markets included hardware products valued at USD 979.9 Million, consulting USD 211.7 Million and software USD 110.3 Million The Indonesian government has targeted the
development of the National Broadband Network (NBN) for the period 2010-2015 As one of the major national economic activity, the
development of NBN is integrated into the MP3EI
DATA AND FACT
The target to be achieved in the development of ICT infrastructure is to develop NBN based on the development of the Telkom Super Highway network and other network operators that currently exists.
The target of the development of ICT by 2014 is reaching broadband connection level of 8 percent of all households or 30 percent of the population already convered by broadband access
Development of NBN to spur economic growth must also be synchronized with the efforts to revitalize the domestic ICT industry
The development of ICT infrastructure experienced rapid growth with capital expenditure (CAPEX) of ICT devices around IDR 40 Trillion during the period of 2004-2005
1. CONVERGENCE ERA, 2. INFORMATION SECURITY, 3. CONVERGENT BROADBAND/WIRELESS (LTE, EVDO, WIMAX/WIBRO) 4. CLOUD COMPUTING, 5. DIGITAL TV, 6. ADVANCED ANALYTICS, 7. ADVANCED DATA CENTER, 8. MOBILE APPLICATION, 9. GREEN ICT
ICT DEMAND AND TREND IN INDONESIA
The arising IT demand is influenced by 1. Emerging technology (Grid computing, 4G Wireless,
Smartphone, etc), 2. Emerging capabilities (unified communication, semantic
connectivity, collective intelligence etc), 3. Emerging business model (personalized pricing, real-time
enterprise etc).
1. NATIONAL ICT CENTER SUPPORTED BY EDCF 2. KOICA ICT CENTER 3. FELLOWSHIP PROGRAM IN KOREAN UNIVERSITIES
4. JOINT RESEARCH WITH ETRI 5. INDUSTRIAL ATTACHMENT (IPTV
WHAT NEXT ? …. ……………………
Korea- Indonesia Collaboration
TERIMA KASIH
TERIMA KASIH
THANK YOU
KAMSAHAMNIDA
Grid computing is a term referring to the combination of computer resources
from multiple administrative domains to reach a common goal. What distinguishes
grid computing from conventional high performance computing systems such as
cluster computing is that grids tend to be more loosely coupled, heterogeneous,
and geographically dispersed. Although a grid can be dedicated to a specialized
application, it is more common that a single grid will be used for a variety of
different purposes. Furthermore, “distributed” or “grid” computing, in general, is a
special type of parallel computing that relies on complete computers (with
onboard CPUs, storage, power supplies, network interfaces, etc.) connected to a
network (private, public or the Internet).