Virtual satellite communication links of incompatible polarization via wavefront multiplexing techniques

With the rapid development of satellite technology and the need to satisfy the increasing demand for location-based services, in challenging environments such as indoors, forests, and canyons, there is an urgent need to improve the position accuracy in these environments. However, traditional algorithms obtain the position solution through time redundancy in exchange for spatial redundancy, and they require continuous observations that cannot satisfy the real-time location services. In addition, they must also consider the clock bias between the satellite and receiver. Therefore, in this paper, we provide a single-satellite integrated navigation algorithm based on the elimination of clock bias for broadband low earth orbit (LEO) satellite communication links. First, we derive the principle of LEO satellite communication link clock bias elimination; then, we give the principle and process of the algorithm. Next, we model and analyze the error of the system. Subsequently, based on the unscented Kalman filter (UKF), we model the state vector and observation vector of our algorithm and give the state and observation equations. Finally, for different scenarios, we conduct qualitative and quantitative analysis through simulations, and the results show that, whether in an altimeter scenario or non-altimeter scenario, the performance indicators of our algorithm are significantly better than the inertial navigation system (INS), which can effectively overcome the divergence problem of INS; compared with the medium earth orbit (MEO) constellation, the navigation trajectory under the LEO constellation is closer to the real trajectory of the aircraft; and compared with the traditional algorithm, the accuracy of each item is improved by more than 95%. These results show that our algorithm not only significantly improves the position error, but also effectively suppresses the divergence of INS. The algorithm is more robust and can satisfy the requirements of cm-level real-time location services in challenging environments.

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Communication architecture of an early warning system

Natural Hazards and Earth System Science ◽

10.5194/nhess-10-2215-2010 ◽

2010 ◽

Vol 10 (11) ◽

pp. 2215-2228 ◽

Cited By ~ 5

Author(s):

M. Angermann ◽

M. Guenther ◽

K. Wendlandt

Keyword(s):

Early Warning ◽

Early Warning System ◽

Satellite Communication ◽

Warning System ◽

Early Warning Systems ◽

Lessons Learned ◽

Warning Systems ◽

Communication Architecture ◽

Design And Implementation ◽

Communication Links

Abstract. This article discusses aspects of communication architecture for early warning systems (EWS) in general and gives details of the specific communication architecture of an early warning system against tsunamis. While its sensors are the "eyes and ears" of a warning system and enable the system to sense physical effects, its communication links and terminals are its "nerves and mouth" which transport measurements and estimates within the system and eventually warnings towards the affected population. Designing the communication architecture of an EWS against tsunamis is particularly challenging. Its sensors are typically very heterogeneous and spread several thousand kilometers apart. They are often located in remote areas and belong to different organizations. Similarly, the geographic spread of the potentially affected population is wide. Moreover, a failure to deliver a warning has fatal consequences. Yet, the communication infrastructure is likely to be affected by the disaster itself. Based on an analysis of the criticality, vulnerability and availability of communication means, we describe the design and implementation of a communication system that employs both terrestrial and satellite communication links. We believe that many of the issues we encountered during our work in the GITEWS project (German Indonesian Tsunami Early Warning System, Rudloff et al., 2009) on the design and implementation communication architecture are also relevant for other types of warning systems. With this article, we intend to share our insights and lessons learned.

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Performance of transport protocols over satellite communication links

IEEE Military Communications Conference. Proceedings. MILCOM 98 (Cat. No.98CH36201) ◽

10.1109/milcom.1998.722583 ◽

2002 ◽

Cited By ~ 3

Author(s):

J. Muhonen ◽

R.C. Durst

Keyword(s):

Satellite Communication ◽

Transport Protocols ◽

Communication Links

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Optimal approach for building scheduling algorithm in satellite communication

International Journal of Engineering & Technology ◽

10.14419/ijet.v7i2.28.12907 ◽

2018 ◽

Vol 7 (2.28) ◽

pp. 181

Author(s):

Ali M. Al-Saegh

Keyword(s):

Quality Of Service ◽

Communication Networks ◽

Satellite Communication ◽

Scheduling Algorithm ◽

Satellite Communications ◽

Satellite Networks ◽

Communication Links ◽

Optimal Approach ◽

Proper Solutions

Building scheduling algorithms in satellite communication links became a necessity according to the typical problems that satellite networks suffers from, such as congestions, jamming, mobility, atmospheric impairment, and achieving the quality of service (QoS) requirements. However, building efficient algorithms needs several considerations that should be taken into account. Such as satellite and earth station node(s), link parameters and specifications, along with the service requirements and limitations. This paper presents efficient approach for accumulating the effective considerations that the designer should employ as a framework for building proper and efficient scheduling algorithm. The proposed approach provides proper solutions to the satellite communications impairments and satisfies the quality of service requirements in satellite communication networks.

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Analysis of Time Diversity Gain for Satellite Communication Link based on Ku-Band Rain Attenuation Data Measured in Malaysia

International Journal of Electrical and Computer Engineering (IJECE) ◽

10.11591/ijece.v8i4.pp2608-2613 ◽

2018 ◽

Vol 8 (4) ◽

pp. 2608

Author(s):

Islam Md. Rafiqul ◽

Ali Kadhim Lwas ◽

Mohamed Hadi Habaebi ◽

Md Moktarul Alam ◽

Jalel Chebil ◽

...

Keyword(s):

Satellite Communication ◽

Satellite Communications ◽

Earth Satellite ◽

Rain Attenuation ◽

Diversity Gain ◽

Communication Link ◽

Time Diversity ◽

Communication Links ◽

System Time ◽

Diversity Technique

<p><span>This paper reports a study on mitigation of propagation impairments on Earth–space communication links. The study uses time diversity as a technique for mitigating rain propagation impairment in order to rectify rain fade. Rain attenuation time series along earth-to-satellite link were measured for two years period at 12.255 GHz in Malaysia. The time diversity technique was applied on measured rain fade to investigate the level of possible improvement in system. Time diversity gain from measured one-minute rain attenuation for two years period was estimated and significant improvement was observed with different delays of time. These findings will be utilized as a useful tool for link designers to apply time diversity as a rain fade mitigation technique in Earth-satellite communications systems.</span></p>

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Simulative Investigation on the Effect of Different Parameters on the Performance of IsOWC System

Journal of Optical Communications ◽

10.1515/joc-2016-0058 ◽

2017 ◽

Vol 38 (3) ◽

Cited By ~ 1

Author(s):

Mehtab Singh

Keyword(s):

Communication Systems ◽

Satellite Communication ◽

Communication Link ◽

Optical Wireless ◽

Antenna Aperture ◽

Aperture Diameter ◽

Pointing Errors ◽

Signal Degradation ◽

Communication Links ◽

Radio Frequency Signals

AbstractInter-satellite communication links are very crucial between satellites orbiting around the earth in order to transmit information between them and also for the purpose of data relaying from one satellite station to other stations and ground stations. Inter-satellite optical wireless communication (IsOWC) links involve the application of optical wireless signals as compared to radio frequency signals used in traditional satellite communication systems. One of the major problems leading to the performance degradation of IsOWC link is the signal degradation due to satellite vibrations also known as pointing errors. In this paper, the performance of an IsOWC communication link has been investigated for different system parameters such as data transmission rates, antenna aperture diameter, transmission power levels, operating wavelength and responsivity of photodiode by analyzing

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