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This research presents an innovative system that has capability to prove the technical feasibility and advantages of a joint radio frequency (RF) and free space optic (FSO) system with a synchronized self-trace directional between various deployments of mesh net nodes in the low space, with several factors driving this convergence. Sky mesh network...
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Context 1
... we observe in Figure 13 and the margin table, the decision instant is implemented at the 0.59375 bit-period. Accumulated jitter led to more losses in BER, causing more difficulty in distinguishing between ones and zeros in the data signal. ...
Context 2
... we need to know the system's reaction to each direction change when supplied with varying angle. The angle was established in initial testing to be nearly identical to the change of direction for SCPS, which is a result of the Figure 13. Min BER: at 0.45 mrad Table 4. Correlation between the beam divergence and acceptable value for BER Figure 14. ...
Context 3
... the EBAN project, the use of ropes to stabilize the blimp against the strong winds increased the weight payload. In fact, the substantive merit of SCPS demonstrated effectiveness in achieving stability against environmental effects, such as a wind, and has been proven through results shown in Figure 13. ...
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Free Space Optical (FSO) networks, also known as optical wireless networks, have emerged as viable candidates for broadband wireless communications in the near future. The range of the potential application of FSO networks is extensive, from home to satellite. However, FSO networks have not been popularized because of insufficient availability and...
Citations
... Previous concept contributed to reduce the use this technology, for this reason has been innovating system has the ability to give consiste deployment of the network to reach areas that are difficult to the traditional methods to be achieved. A smart communication platform system (SCPS) base station [2], as a sky-tower is a solution to overcome the restrictions besides the ability to deploy the network to large-scale with a high QoS includes on a hybrid of Communication Systems, i.e., fiberoptic cable (FOC), FSO and radio frequency (RF). ...
... The SCPS design as shown in Figure 3 that was used in AAPS network structural construction, the design describes system components, and table1 are clarifying each constituent and its position in the system architectural. For further details on the structure and mechanism design performance can be obtained from our previous [2]. The operation which requires transferring a variables factor that influence in the SCPS, from the physical to the digital world. ...
... Smart Communication Platform System Architectural[2]. ...
This study reveals for a creation of a system that has the ability to prove the technical feasibility and the advantages of a joint Radio Frequency and fiber optic system with self-trace directional control between deployed network nodes in the low space. Sky's mesh network utilizing aerial altitude platform stations (AAPS) are driven via Wi-Fi and optical fiber to support and strengthen the capacity of network nodes by acquiring high quality coverage. The mechanism of AAPS Face a real challenge of precariousness due to winds; this challenge hinders network deployment due to loss of the line of sight (LoS). A smart communication platform system (SCPS) base station is proposed to overcome the limitations. Research aimed to evaluate the SCPS mechanism, to verify aptitude of system performance which is used to handling and supporting the communication networks in disaster areas.
... This situation necessitates the creation of a system that can address the issue of guidance. For further details can be found in [4]. This paper will concentrate on the networks of deployment at 2 L Ns. ...
... Figures 5 shows the eye diagram at 0.45mrad [4], beam-divergence angle in two different distances, 1000m and 1400m. The eye pattern is a technique that provides the necessary information for the received signal. ...
The modern communications technology is a positive case for disaster risk reduction, since they to it provides critical information to realize risk assessment. In this study, we present an innovative technique is characterized by an aerial platform as a robust method to monitor disaster area. Traffic Surveillance System (TSS), based on Detection and Early Warning (DEW) units, is used to monitor the
roads in preventing accidents at the same time finding what causes the accidents. This is done by implementing some image vision protocols as that of Gaussian. This paper will discuss about the cameravideo surveillance capabilities of tracking across different and varied road environments including detection of moving vehicles. The programming method used will be the functional programming of OpenCV which could be operated under Linux OS. The bit error rate (BER) also was evaluated
among multiple platform links in mobile environments. We adopted multi-level deployment besides low aggregate throughput delivered to all remote-sensing terminals in order to accommodate the reliability of data transmission from the last mile.
... Figure 3 describes the mechanism procedures of the smart communication system control (SCSC) that was used in the SCPS units. More detail can be found in our previous research [4]. ...
Areas affected by disasters prompted numerous countries to contemplate carefully to find effective means to decrease effects incident.In Fact the conventional methods have failed to achieve the desired goal. This paper provides an innovative approach system which enhances network communication and has the ability to provide the technical feasibility of a joint fiber-wireless (Fi-Wi) and free space optic (FSO) system utilizing aerial altitude platform system (AAPS). Nevertheless, this proposed technique is not free of obstacles specifically, when encountered high winds in low levels of the ground, a challenge due to the loss of the line of sight (LoS) between network deployment nodes. A smart communication platform system (SCPS) to overcome these constraints and to establish the ability to deploy sky meshes networks. In this research,Performance test results of the system showed the new approach that provides further reliability in the transmission single through the use of the compact of RF and FSO. In addition, the inventive technique design will improve the broadband propagation and reconnecting the affected areas. Keywords— Aerial altitude platform , free space optics (FSO), fiber-Wireless (Fi-Wi), disasters area, smart communication platform system (SCPS), Fiber-Optic Connection.
Communications play a significant role in rural and disaster
situations since they provide critical information to audiences and
organizations, during natural or unnatural disasters, disrupted
communications that require a speedy deployment communication networks
to carry out necessary relief, in fact, the traditional techniques fail to provide
access to the Internet in rural and isolated areas. In order to improve the
communication system performance in isolated areas an aerial altitude
platform system (AAPS) could be used. But this mechanism has
encountered problems of precariousness due to strong winds; this challenge
hinders network deployment due to loss of the line of sight (LoS), so a smart
antenna platform system (SAPS) base station is suggested. In this paper we
demonstrate, for the first time, that the SAPS system provides more stability
and accuracy in transmission of radio signals by the use of 3-axis
(accelerometer and gyroscope) sensors. The experimental analysis done in
this work considers mesh networks and LoS between the mesh nodes with
low weight, low costs and high performance.
Wireless mobile networking technology can be used to reduce a negative effect that occurs in disaster areas. This study, will present an innovative technique via utilize a Low-altitude platform, in order to provide expanded coverage. There are still some challenges to be dealt with in the current manner, e.g., changeableness in direction, which can lead to the loss of a permanent connection between network node's deployments. Another problem can be attenuation in a communication channel due to bad weather factors. Aerial platform is a sky-base station that utilizes free-space optics (FSO) to connect network nodes in addition to meeting the demand of service quality to the “last mile.” A new approach is used to connect several aerial platforms that are helpful in increasing the range of the network deployment. Therefore, the purpose of this study is to examine the performance of these platforms by connecting multiple-network nodes in various weather environments.
Natural disasters can cause a massive damage of life and property. Mobile communications technologies can be used to reduce the effect of disaster in isolated areas. The approach which has been adopted throughout this study by utilizes a Low-altitude Platform system (L-APs) as a technique to enhance the performance of communications network. However, the proposed approach was accompanied by some challenges, i.e. Instability of communication systems Inside-platform; and the needed to improve the quality of service (QoS). These challenges hinder network node for deployment. The situation led to creation a smart communication platform system (SCPS) base station. This system has characterized by the ability to adjustment with external factors that prevent stabilization. Moreover, SCPS has provisioned QoS via hybrid Free-Space Optics/radio Frequency (FSO/RF) networks as a technique to improve data propagation to the “last mile." A new method is used to connect several aerial platforms that are helpful in increasing the range of the network deployment. Therefore, the purpose of this study is to examine the performance of these platforms in various weather environments.
Communications service needs to keep pace with technological progress to meet the needs of users, In terms of enhancing the quality of service (QoS) and reach the end- system. An isolated area is the project goal because of weakness in the processing services to such areas. In this paper, we scrutinize the performance of; utilizing aerial altitude platform stations (AAPs); however, this method has to encounter difficulty in instability due to winds, a challenge that hinders network deployment due to loss of the line of sight (LoS). A smart communication platform system (SCPS) base station is proposed to surmount the constraints imposed as well as to its aptitude to deploy networks in different directions simultaneously. In addition the SCPS ability to enhance broadband through the use fiber-Wireless (Fi-Wi) and free space optical (FSO
