8^th International Conference and Exhibition on Satellite & Space Missions November 21-22, 2022 Toronto, Canada

Biography:

Abstract:

Satellite systems continue to play an important role in Indonesia, driving up demand for broadcasting services and telecommunications services.

Indonesia has a potentially strong e- commerce industry. Based on an Ernst & Young data analysis, the growth of online sales increases 40% annually. There are 93.4 million Internet users, and there are 71 million smart phone users in Indonesia [8]. The telecommunications infrastructure, including satellite capacity, is as an enabler of the e- commerce industry. Therefore, the government should have a better solution related to an increase in satellite capacity in Indonesia. The Internet is primarily used for searching for information and chatting; it will shift to e- commerce as a lifestyle. There are tens of millions of middle class citizens in Indonesia as the target of the e-commerce industry. That is the reason why e-commerce will continue to increase. By the end of 2014, the value of the e- commerce industry in Indonesia was US$12 billion .

Biography:

Vladislav V Demyanov, DrSc in Engineering, has been working as a Senior Research Scientist of the GNSS Remote Sensing Research Group, Institute of Solar and Terrestrial Physics (Siberian Branch of Russian Academy of Science) and as a Full Professor of Irkutsk State Transport University. His research interest include: space weather- geomagnetic storms and solar radio flares and their impact on GNSS and SBAS performance; GNSSSBAS integrity and positioning availability control under irregular external impacts; GNSS remote sensing of the ionosphere; GNSS application on transportation.

Abstract:

To provide GNSS/SBAS reliable performance under Space Weather impacts several solutions are considered. The system of technical-organizing measures that will enable to improve the GNSS performance quality with allowance for current helio-geophysical conditions is proposed. Exact fore- and nowcasting positioning quality under geomagnetic disturbances is out of modern state of technologies. Nevertheless, the forecasting may be proposed as a general measure to alert GNSSSBAS users for the probable abnormal state of the positioning in advance and in the nearly-real time. Real-time alert of users to a geomagnetic disturbance in the signal propagation medium is considered as enhancement of RAIM solutions. A complex system of differential correction, prediction, and monitoring of the GNSS positioning quality under unfavorable helio-geophysical conditions is proposed. The system is considered as a basis for a perspective service of global monitoring and forecasting of the integrated uniform GNSS current operation quality.