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IOSR Journal of Computer Engineering (IOSR-JCE)
e-ISSN: 2278-0661,p-ISSN: 2278-8727, Volume 17, Issue 1, Ver. V (Jan – Feb. 2015), PP 48-52
www.iosrjournals.org
DOI: 10.9790/0661-17154852 www.iosrjournals.org 48 | Page
Feasibility of Laying Fiber-Optic Cables underwater along River
Nile Basin- Sudan Study Case
1
Ammar A. Saleh, 2
Dr. Amin B. A. Mustafa, 3
Dr. Ashraf A. Osman
1
(Faculty of Engineering, Al- Neelain University, Khartoum, Sudan,
2
(Faculty of Engineering, Al- Neelain University, Khartoum, Sudan,
3
(Computer Design Senior Engineer, Folsom, CA, USA,
Abstract: Fiber optics cables offers various advantages of over regular cables when used as data
transportation medium in today’s communication networks. The River Nile basin countries such as Sudan
enjoys vast distances that are travelled by the River Nile, offering a natural path for an underwater cable laying
areas. In this study, the potential of laying such cables is investigated with Sudan taken as a case study. The
socioeconomic impact analysis will be provided, and potential issues and obstacles will be discussed.
Keywords: Communications, Fibers, Network, Optic
I. Introduction
Several researchers have provided detailed analysis of merits and demerits of using fiber-optic in
communication network specially when long distances are involved where light suffers little attenuation
compared to electric wiring cables. Examples of fiber-optics benefits includes[1]:
 Immunity to electromagnetic interference,
 Usage of nonconductive materials,
 No electromagnetic radiation from cables leading to high data security
 No current induced sparks risks since no conducting current is used
 Usage of small and lightweight materials
 High operating bandwidth over long distances.
Despite these benefits, the fiber-optic cables suffers from limitations such as[1]:
o Cost where cables are expensive to install but last longer than copper cables.
o Transmission where optical fibers require repeating at distance intervals.
o Fragility where cables are prone to breakage or transmission loses when wrapped around sharp curves. This
can be avoided by encasing fibers in plastic sheath where cables will be hardened towards bending into a
small enough radius that could result in fiber breaks.
o Protection - Optical fibers require more protection around the cable compared to copper.
Several researchers have reported on submarine optical fiber cable transmission systems and networks.
Paul D. et. al. [2] provided analysis of undersea bed fiber optic cable network that is reported on several cable
networks TAT, their cost, reliability, and system considerations. Furthermore, Iwamoto, Y. and Fukinuki, H.[3]
have reported on submarine optical fiber cable transmission systems used during the 1985 in Japan. Recently,
Aditi and Preeti [4] have published a study of submarine optical cables as a key component in undersea
telecommunications. They proposed that submarine cables can also be used for purposes other than just
underwater telecommunication. These include water reservoir monitoring needs.
Considering the fiber-optic network advantages and despite their disadvantages mentioned above, the
fiber-optic cables are considered an effective alternative to use for new communication network in vast and
spacious lands such as in Africa. This is in comparison to use of either satellite for telecommunication, or laying
copper wire coaxial cables for long distances.
There are various projects that targeting linking Africa to world networks thru under water fiber-optic
cable networks as listed in Table.1 and shown pictorially in Fig.1. Data presented in Table 1. and plotted in
Fig.1 are extracted from [5]. However, it is a significant challenge to connectivity of inner towns and cities that
are located far inland away from the coastal areas. Moreover, these towns and cities are sparsely distributed over
a wide range of country lands with limited infrastructure to connect to coastal areas.
Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case
DOI: 10.9790/0661-17154852 www.iosrjournals.org 49 | Page
Table 1. List of undersea cables laid along Africa coastal areas.
krowteN elbaC
Africa Coast to Europe (ACE)
Asia Africa Europe-1 (AAE-1)
Eastern Africa Submarine System (EASSy)
Middle East North Africa (MENA) Cable System/Gulf Bridge International
Saudi Arabia-Sudan-1 (SAS-1)
Saudi Arabia-Sudan-2 (SAS-2)
The East African Marine System (TEAMS)
West African Cable System (WACS)
Africa Coast to Europe (ACE)
The Sudan, a River Nile basin country, represents a typical example of such situation in Africa. The
eastern Red Sea coastal city of PortSudan (Fig.1) is linked to the undersea Eastern Africa Submarine System
(EASSy), Saudi Arabia-Sudan-1 (SAS-1), and Saudi Arabia-Sudan-(2) (SAS-(2) network systems[5] while the
majority of the Sudan cities and towns are located deep inland to the west of the coast.
There are various challenges that faces construction of fiber-optics ground cable networks within African
countries in particular. Examples of these are:
o high cost of drilling operations to link the cables to remote places
o deliberate damage to cables and equipment with intention of theft and vandalism
o Land permit costs for areas that cable network is established on or passes through
o Adequate training of workers to properly install cables and equipment to prevent operational damages.
In this study, a proposal suitable for African River Nile basin countries to lay new fiber optics cable
networks submerged under the river water level will be presented. The proposal addresses the challenges that
are faced by common ground cable networks.
II. Geography of River Nile – Sudan Case
The River Nile is an impressive 6,853 km (4,258 miles) long and pass through an 11 African countries,
namely Tanzania, Uganda, Rwanda, Burundi, Congo-Kinshasa, Kenya, Ethiopia, Eritrea, South Sudan, Sudan,
and Egypt. The River Nile and its three tributaries (the white, the blue Nile, and Atbara river) when passes
through the Sudan they create a complex web that connects many cities from various parts of the country as can
be seen in map shown in Fig. 2. As seen from the map, there are several cities and towns that are located along
the River Nile banks. Table 2. demonstrates a sample list of Sudanese towns with distances less than 100Km
range that lie along the River Nile banks.
Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case
DOI: 10.9790/0661-17154852 www.iosrjournals.org 50 | Page
Fig. 1. Africa map with coastal undersea fiber-optic networks. Red Sea coastal city of PortSudan is encircled
Fig.2 Map of the Sudan with provinces, cities, and path of the River Nile and its tributaries.
III. Proposed Network Infrastructure
The River Nile path provides a natural and safe pathway to lay a submerged fiber optic cables and
connects into a network that would provide country wide coverage on relatively low cost premise. Table. 3.
Shows a comparison between ground and submerged cables under River water.
naduStroP
Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case
DOI: 10.9790/0661-17154852 www.iosrjournals.org 51 | Page
Table 2. Sample list of cities/towns located along the River Nile banks and are within 100Km distances from
neighboring cities.
# City/Town # City/Town # City/Town
1 Wadi Halfa 14 AlBawga 27 Rofaa
2 Arab 15 Berber 28 Wad Madni
3 Dalgo 16 Atbara 29 Sinnar
4 Karma 17 Ad Damer 30 Singa
5 Argo 18 AlZidab 31 AlSuki
6 Dongla 19 Kaboshia 32 Ad Damazin
7 Al Dabbah 20 AlMatma 33 AlRosarus
8 Merowe 21 Shendi 34 AlGitaina
9 Karima 22 Khartoum 35 Ed Duiem
10 Korti 23 Alkhartoum
Bahri
36 Kosti
11 Abu Hamed 24 Omdurman 37 AlJablain
12 AlShraik 25 Alkamleen 38 AlRank
13 Adahm 26 AlHasaheesa 39 Algandag
40 AlFaki
Considering the aforementioned discussion, it would be beneficial to seriously consider constructing a
fiber optic cable network through the River Nile course that would bring about connectivity to inland cities and
town. Such network would enable connection of majority of river cities lies along the River Nile banks by
laying segments of fiber-optic cables submerged at the bottom of the river corridor. Infrastructure would require
construction of:
 control, monitor, and repeat centers along the river path for every 100km. This distance represent longest
distance that can travelled by light thru these cables before repeating operations are required.
 Such control centers can also serves as check points for other essential services such as water level monitors
during flood seasons and other public safety services.
 In the case when the river path through cities that are less that 100Km apart, only minor check points
establishments will be required, resulting in large sums of infrastructure savings.
An analysis of cost, reliability, and system configurations of under river bed fiber optic cable network can be
performed in a similar fashion of that by Paul D. et.al. [2] performed on under sea bed fiber cable networks.
IV. Conclusions
An overview of current status of fiber-optic cable networks in Africa is discussed. It was noted that the
majority of the networks are established through submarine cables flowing over the coastal areas. Very little
connections are constructed to connect inland and remote towns and cities. Moreover, the River Nile basin
countries and river corridor review is also discussed. A proposal to utilize the natural pathway of the River Nile
in the Sudan taken as an example to construct a fiber-optic cable submerged under river water. This would
provide coverage to inland and remote areas that are located on or closer to river banks. A comparison chart of
benefits of using river submerged cables versus ground cables is developed and presented. It was shown that for
countries that are enjoys long river courses, this type of network can be used with significant advantages over
ground cable networks. Such networks could serve as backbone of inter-African countries networks specially
those are part of the River Nile basin.
Table 3. Comparison between ground and submerged cables under River Nile.
Factor Ground Cables Submarine Cables
General Costs High Standard
Land Cost High NA
Temperature High impact Low impact
Theft/Vandalism Frequently Hardly
Maintenance Time consuming and costly Fast and easy
Medium ground water
Human induced External effects Behavior and Frequent Negligible
Wars Direct impact NA
Security Vulnerable Immune
Monitoring Costly and difficult Cheap and easy
Repeaters Standard Power grid Station along River
Power Standard Power grid Station along River
Running cost High Standard
Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case
DOI: 10.9790/0661-17154852 www.iosrjournals.org 52 | Page
Service Continuity Low High
Materials Standard Standard
Earthquakes High and direct impact Low impact
Damage vulnerable immune
References
[1]. Ankit Gambhir, Merits and demerits of optical fiber communication, International Journal of Research in Engineering & Applied
Sciences , Vol. 3, Issue 3, 2013, 99 -104 2012, 112-116.
[2]. Paul, D. ; Greene, K. ; Koepf, Gerhard A. , “Undersea fiber optic cable communications system of the future: Operational,
reliability, and systems considerations”, IEEE journal of light technology, Volume: 2 , Issue: 4 , 1984 , Page(s): 414 – 425
[3]. Iwamoto, Y., Fukinuki, H., Recent advances in submarine optical fiber cable transmission systems in Japan, IEEE Journal of
Lightwave Technology, Volume:3 , Issue: 5 , Oct 1985, pp 1005 – 1016.
[4]. Aditi, Preeti, Submarine Optical Cables as a Key Component in Undersea Telecommunications: A Review, International Journal of
Application or Innovation in Engineering & Management (IJAIEM), Volume 1, Issue 4, December 2012, pp 79- 83
[5]. Submarine Cable Map, TeleGeography, “http://www.submarinecablemap.com/#/country/sudan”, updated Jan 27, 2015.

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Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case

  • 1. IOSR Journal of Computer Engineering (IOSR-JCE) e-ISSN: 2278-0661,p-ISSN: 2278-8727, Volume 17, Issue 1, Ver. V (Jan – Feb. 2015), PP 48-52 www.iosrjournals.org DOI: 10.9790/0661-17154852 www.iosrjournals.org 48 | Page Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case 1 Ammar A. Saleh, 2 Dr. Amin B. A. Mustafa, 3 Dr. Ashraf A. Osman 1 (Faculty of Engineering, Al- Neelain University, Khartoum, Sudan, 2 (Faculty of Engineering, Al- Neelain University, Khartoum, Sudan, 3 (Computer Design Senior Engineer, Folsom, CA, USA, Abstract: Fiber optics cables offers various advantages of over regular cables when used as data transportation medium in today’s communication networks. The River Nile basin countries such as Sudan enjoys vast distances that are travelled by the River Nile, offering a natural path for an underwater cable laying areas. In this study, the potential of laying such cables is investigated with Sudan taken as a case study. The socioeconomic impact analysis will be provided, and potential issues and obstacles will be discussed. Keywords: Communications, Fibers, Network, Optic I. Introduction Several researchers have provided detailed analysis of merits and demerits of using fiber-optic in communication network specially when long distances are involved where light suffers little attenuation compared to electric wiring cables. Examples of fiber-optics benefits includes[1]:  Immunity to electromagnetic interference,  Usage of nonconductive materials,  No electromagnetic radiation from cables leading to high data security  No current induced sparks risks since no conducting current is used  Usage of small and lightweight materials  High operating bandwidth over long distances. Despite these benefits, the fiber-optic cables suffers from limitations such as[1]: o Cost where cables are expensive to install but last longer than copper cables. o Transmission where optical fibers require repeating at distance intervals. o Fragility where cables are prone to breakage or transmission loses when wrapped around sharp curves. This can be avoided by encasing fibers in plastic sheath where cables will be hardened towards bending into a small enough radius that could result in fiber breaks. o Protection - Optical fibers require more protection around the cable compared to copper. Several researchers have reported on submarine optical fiber cable transmission systems and networks. Paul D. et. al. [2] provided analysis of undersea bed fiber optic cable network that is reported on several cable networks TAT, their cost, reliability, and system considerations. Furthermore, Iwamoto, Y. and Fukinuki, H.[3] have reported on submarine optical fiber cable transmission systems used during the 1985 in Japan. Recently, Aditi and Preeti [4] have published a study of submarine optical cables as a key component in undersea telecommunications. They proposed that submarine cables can also be used for purposes other than just underwater telecommunication. These include water reservoir monitoring needs. Considering the fiber-optic network advantages and despite their disadvantages mentioned above, the fiber-optic cables are considered an effective alternative to use for new communication network in vast and spacious lands such as in Africa. This is in comparison to use of either satellite for telecommunication, or laying copper wire coaxial cables for long distances. There are various projects that targeting linking Africa to world networks thru under water fiber-optic cable networks as listed in Table.1 and shown pictorially in Fig.1. Data presented in Table 1. and plotted in Fig.1 are extracted from [5]. However, it is a significant challenge to connectivity of inner towns and cities that are located far inland away from the coastal areas. Moreover, these towns and cities are sparsely distributed over a wide range of country lands with limited infrastructure to connect to coastal areas.
  • 2. Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case DOI: 10.9790/0661-17154852 www.iosrjournals.org 49 | Page Table 1. List of undersea cables laid along Africa coastal areas. krowteN elbaC Africa Coast to Europe (ACE) Asia Africa Europe-1 (AAE-1) Eastern Africa Submarine System (EASSy) Middle East North Africa (MENA) Cable System/Gulf Bridge International Saudi Arabia-Sudan-1 (SAS-1) Saudi Arabia-Sudan-2 (SAS-2) The East African Marine System (TEAMS) West African Cable System (WACS) Africa Coast to Europe (ACE) The Sudan, a River Nile basin country, represents a typical example of such situation in Africa. The eastern Red Sea coastal city of PortSudan (Fig.1) is linked to the undersea Eastern Africa Submarine System (EASSy), Saudi Arabia-Sudan-1 (SAS-1), and Saudi Arabia-Sudan-(2) (SAS-(2) network systems[5] while the majority of the Sudan cities and towns are located deep inland to the west of the coast. There are various challenges that faces construction of fiber-optics ground cable networks within African countries in particular. Examples of these are: o high cost of drilling operations to link the cables to remote places o deliberate damage to cables and equipment with intention of theft and vandalism o Land permit costs for areas that cable network is established on or passes through o Adequate training of workers to properly install cables and equipment to prevent operational damages. In this study, a proposal suitable for African River Nile basin countries to lay new fiber optics cable networks submerged under the river water level will be presented. The proposal addresses the challenges that are faced by common ground cable networks. II. Geography of River Nile – Sudan Case The River Nile is an impressive 6,853 km (4,258 miles) long and pass through an 11 African countries, namely Tanzania, Uganda, Rwanda, Burundi, Congo-Kinshasa, Kenya, Ethiopia, Eritrea, South Sudan, Sudan, and Egypt. The River Nile and its three tributaries (the white, the blue Nile, and Atbara river) when passes through the Sudan they create a complex web that connects many cities from various parts of the country as can be seen in map shown in Fig. 2. As seen from the map, there are several cities and towns that are located along the River Nile banks. Table 2. demonstrates a sample list of Sudanese towns with distances less than 100Km range that lie along the River Nile banks.
  • 3. Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case DOI: 10.9790/0661-17154852 www.iosrjournals.org 50 | Page Fig. 1. Africa map with coastal undersea fiber-optic networks. Red Sea coastal city of PortSudan is encircled Fig.2 Map of the Sudan with provinces, cities, and path of the River Nile and its tributaries. III. Proposed Network Infrastructure The River Nile path provides a natural and safe pathway to lay a submerged fiber optic cables and connects into a network that would provide country wide coverage on relatively low cost premise. Table. 3. Shows a comparison between ground and submerged cables under River water. naduStroP
  • 4. Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case DOI: 10.9790/0661-17154852 www.iosrjournals.org 51 | Page Table 2. Sample list of cities/towns located along the River Nile banks and are within 100Km distances from neighboring cities. # City/Town # City/Town # City/Town 1 Wadi Halfa 14 AlBawga 27 Rofaa 2 Arab 15 Berber 28 Wad Madni 3 Dalgo 16 Atbara 29 Sinnar 4 Karma 17 Ad Damer 30 Singa 5 Argo 18 AlZidab 31 AlSuki 6 Dongla 19 Kaboshia 32 Ad Damazin 7 Al Dabbah 20 AlMatma 33 AlRosarus 8 Merowe 21 Shendi 34 AlGitaina 9 Karima 22 Khartoum 35 Ed Duiem 10 Korti 23 Alkhartoum Bahri 36 Kosti 11 Abu Hamed 24 Omdurman 37 AlJablain 12 AlShraik 25 Alkamleen 38 AlRank 13 Adahm 26 AlHasaheesa 39 Algandag 40 AlFaki Considering the aforementioned discussion, it would be beneficial to seriously consider constructing a fiber optic cable network through the River Nile course that would bring about connectivity to inland cities and town. Such network would enable connection of majority of river cities lies along the River Nile banks by laying segments of fiber-optic cables submerged at the bottom of the river corridor. Infrastructure would require construction of:  control, monitor, and repeat centers along the river path for every 100km. This distance represent longest distance that can travelled by light thru these cables before repeating operations are required.  Such control centers can also serves as check points for other essential services such as water level monitors during flood seasons and other public safety services.  In the case when the river path through cities that are less that 100Km apart, only minor check points establishments will be required, resulting in large sums of infrastructure savings. An analysis of cost, reliability, and system configurations of under river bed fiber optic cable network can be performed in a similar fashion of that by Paul D. et.al. [2] performed on under sea bed fiber cable networks. IV. Conclusions An overview of current status of fiber-optic cable networks in Africa is discussed. It was noted that the majority of the networks are established through submarine cables flowing over the coastal areas. Very little connections are constructed to connect inland and remote towns and cities. Moreover, the River Nile basin countries and river corridor review is also discussed. A proposal to utilize the natural pathway of the River Nile in the Sudan taken as an example to construct a fiber-optic cable submerged under river water. This would provide coverage to inland and remote areas that are located on or closer to river banks. A comparison chart of benefits of using river submerged cables versus ground cables is developed and presented. It was shown that for countries that are enjoys long river courses, this type of network can be used with significant advantages over ground cable networks. Such networks could serve as backbone of inter-African countries networks specially those are part of the River Nile basin. Table 3. Comparison between ground and submerged cables under River Nile. Factor Ground Cables Submarine Cables General Costs High Standard Land Cost High NA Temperature High impact Low impact Theft/Vandalism Frequently Hardly Maintenance Time consuming and costly Fast and easy Medium ground water Human induced External effects Behavior and Frequent Negligible Wars Direct impact NA Security Vulnerable Immune Monitoring Costly and difficult Cheap and easy Repeaters Standard Power grid Station along River Power Standard Power grid Station along River Running cost High Standard
  • 5. Feasibility of Laying Fiber-Optic Cables underwater along River Nile Basin- Sudan Study Case DOI: 10.9790/0661-17154852 www.iosrjournals.org 52 | Page Service Continuity Low High Materials Standard Standard Earthquakes High and direct impact Low impact Damage vulnerable immune References [1]. Ankit Gambhir, Merits and demerits of optical fiber communication, International Journal of Research in Engineering & Applied Sciences , Vol. 3, Issue 3, 2013, 99 -104 2012, 112-116. [2]. Paul, D. ; Greene, K. ; Koepf, Gerhard A. , “Undersea fiber optic cable communications system of the future: Operational, reliability, and systems considerations”, IEEE journal of light technology, Volume: 2 , Issue: 4 , 1984 , Page(s): 414 – 425 [3]. Iwamoto, Y., Fukinuki, H., Recent advances in submarine optical fiber cable transmission systems in Japan, IEEE Journal of Lightwave Technology, Volume:3 , Issue: 5 , Oct 1985, pp 1005 – 1016. [4]. Aditi, Preeti, Submarine Optical Cables as a Key Component in Undersea Telecommunications: A Review, International Journal of Application or Innovation in Engineering & Management (IJAIEM), Volume 1, Issue 4, December 2012, pp 79- 83 [5]. Submarine Cable Map, TeleGeography, “http://www.submarinecablemap.com/#/country/sudan”, updated Jan 27, 2015.