World Academy of Science, Engineering and Technology
International Journal of Agricultural and Biosystems Engineering
Vol:10, No:10, 2016
Reverse Engineering of Agricultural Machinery: A
Key to Food Sufficiency in Nigeria
Williams S. Ebhota, Virginia Chika Ebhota, Samuel A. Ilupeju
International Science Index, Agricultural and Biosystems Engineering Vol:10, No:10, 2016 waset.org/Publication/10006904
Abstract—Agriculture employs about three-quarter of Nigeria's
workforce and yet food sufficiency is a challenge in the country. This
is largely due to poor and outdated pre-harvest and post-harvest
farming practices. The land fallow system is still been practised as
fertiliser production in the country is grossly inadequate and
expensive. The few available post-harvest processing facilities are
faced with ageing and are inefficient. Also, use of modern processing
equipment is limited by farmers' lack of fund, adequate capacity to
operate and maintain modern farming equipment. This paper,
therefore, examines key barriers to agricultural products processing
equipment in the country. These barriers include over-dependence on
foreign technologies and expertise; poor and inadequate
manufacturing infrastructure; and lack of political will by political
leaders; lack of funds; and lack of adequate technical skills. This
paper, however, sees the increase in the domestic manufacturing of
pre-harvest and post-harvest machinery and equipment through
reverse engineering approach as a key to food production sufficiency
in Nigeria.
Keywords—Agricultural machinery, domestic manufacturing,
forward engineering, production reverse engineering, technology.
A
I.
INTRODUCTION
GRICULTURE is a key to accelerated economic growth
and an enhanced standard of living of the citizenry. This
sector has a lot of challenges in developing countries of Africa
with Nigeria inclusive. Food insufficiency is a common trait to
countries of Africa and a major issue in Nigeria. Globally,
agricultural sector is a priority in national planning and
national annual budget as food sufficiency is a measure of the
economic development of a given country [1].
Despite the fact that Nigeria is massively endowed with
agricultural resources, the country's agricultural sector has
been growing at a very low rate. Less than 50% of cultivable
agricultural land in the country is cultivated. The greater part
of the cultivated land is based on smallholder and farmers use
of traditional and rudimentary production techniques which
lowers yields [1]. In addition, the farming system is
monotonous, boring and uninteresting. The slow growth of
food production results in growing food insecurity and food
imports. Most households in Nigeria spend up to 70% of their
income on food and yet close to 50% of the children less than
five years are malnourished [2]. The amount of the total food
Williams S. Ebhota and Dr Samuel A. Ilupeju are with the Department of
Mechanical Engineering, Howard College, University of KwaZulu-Natal,
Durban,
South
Africa
(e-mail:
willymoon2001@yahoo.com,
ilupejus@ukzn.ac.za).
Chika Virginia Ebhota is with the Department of Electrical Engineering,
Howard College, University of KwaZulu-Natal, Durban, South Africa (e-mail:
engrchikaugwu@yahoo.com).
International Scholarly and Scientific Research & Innovation 10(10) 2016
imported into the country from 1990‒2011 was about
74,487.37 USD and the average food imported per day was
put at about 9.28 USD [3]. Nigeria imported agricultural
produce worth of N630 billion in 2012 and the country is
ranked number one importer of rice globally, former Nigeria
President, Goodluck Jonathan revealed [4]. Apart from rice
importation, wheat, sugar, fish and poultry products are
equally imported to Nigeria massively.
II. AGRICULTURAL PRODUCTIVITY IMPEDING FACTORS
The barriers that impede the growth of agricultural
production in this country can be classified into technological
constraints, environmental, sociocultural and socio-political
barriers.
A. Technological Constraints
Use of Traditional Method
The structure and methods of production for the past four
decades (over 40 years of independence) have relatively
remained the same. Over 90% of Nigerian farmers still depend
on cutlasses, holes and sticks for pre-harvest operations and
sell their farm produce without post-harvest process [5], [6].
This is the foremost barrier to agricultural sector growth. The
farming population is made up of small-scale, subsistence
peasants, farming on an average about two hectares of land
and usually on scattered holdings. Farming activities are also
carried out mainly with traditional, rudimentary technology
consisting mainly of hoes and cutlasses, as shown in Table I.
TABLE I
ESTIMATES OF AREAS UNDER DIFFERENT POWER SOURCES IN NORTHERN
STATES OF NIGERIA [5]
Number of farmers (million)
Size of land cultivated (ha/farmer/yr)
Annual total area cultivated (million ha)
Total area percentage (%)
Hoe
7.5
1.0
7.5
86.0
Power sources
Animal
Tractor
0.1
0.015
5.0
50.0
0.5
0.75
5.5
8.5
Poor Storage Facilities
Presently, the available storage technology is grossly
inadequate and not complimenting the efforts of the small
holders to carter for their produce during season. The annual
crop loss is about 20% of the harvest and this is a huge loss.
This challenge should be of concern to all the stakeholders in
the sector; from research scientists, engineers to the extension
workers in the field to the farmers on the farm and to the
government policy formulators [7].
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World Academy of Science, Engineering and Technology
International Journal of Agricultural and Biosystems Engineering
Vol:10, No:10, 2016
Poor Post Process Facilities
A wide range of agricultural products found in formal
markets requires post-harvest processing and this makes
processing facilities equipment relevant in agricultural sector.
Consequently, this creates a lot of business opportunities for
local manufacturers of agro-allied processing machines (both
"pre" and "post" harvest machinery). Domestic agricultural
equipment production is pivotal to food sufficiency production
and national food security [8]. Every region in Nigeria is
blessed with different economic endowments such as
cultivable soil, solid minerals, and crude oil. These
endowments remain economically useless (with exception of
few) if additional values in form of post-harvest operation are
not added. Capacity constraint in manufacturing, due to poor
infrastructure, is a key limiting factor threatening agricultural
growth and food security in Nigeria. The endowments become
less economical and worthless, in some cases they are taken
away cheaply when there is insufficient post-process
operation. The discovery of crude oil in Nigeria contributed to
the dwindling and abandoning of agriculture sector by many
people [9].
B. Sociocultural and Socio-Political Barriers
Non-Involvement of Elites
The small-scale farmers' low level of education, particularly
women who form the majority of the agricultural labour force
has remained a major challenge to the adoption of modern
farming techniques and the ability to access other inputs
necessary for increase productivity in the sector.
Inadequate Government Policy and Lack of Government
Political Will
Nigeria returned to democracy in 1999 and the government
then itemised various factors that are hindering national
economic growth. These barriers include mono-economy
(reliance on only oil), inadequate manufacturing
infrastructure, agricultural neglect and over dependence on
foreign products [8]. As a result, the government came up with
a policy to make the development of agriculture a priority to
tackle poverty, improve standard of living and boost the
economy. In this policy, there were plans for new technology,
improved seedlings, better storage facilities and access to
funds at reduced lending rates. Also, it was reported that the
government would diversify the economy, move the country
away from mono-economy and an import dependent country.
Subsequently, there were plans of incentives and
encouragement for agro-allied industries development under
small and medium-scale enterprises (SME) act [10], [11].
However, the same government failed to show sincere
commitment in the policy implementation. Consequently,
billions of naira was reportedly spent and insignificant
achievement was recorded.
Over Dependence on Petroleum
Before Nigeria got her independence in 1960, agriculture
was the main source of income for the country (more than
three-quarter of export earnings) which accounted for more
International Scholarly and Scientific Research & Innovation 10(10) 2016
than one-half of gross domestic product (GDP) [12], [13]. In
Nigeria, agriculture provides food, employs nearly threequarter of Nigeria's workforce in the rural areas and creates
wealth. Agriculture was the main source of foreign exchange
and mainstay of the Nigeria economy before independence in
1960 and in the 1970s. This shows the status and relevance of
this sector to the Nigerian economy before the discovery and
the subsequent exploitation of oil in commercial quantity at
Oloibiri in 1956 and 1958 respectively [14]. This relevance
has since been overtaken by crude oil exports, which presently
accounts for over 90% of export earnings [2]. The country has
made huge earning from the export and sales of crude oil but
this enormous revenue profile has not impacted on lives
positively, coupled with the abandonment of other sources of
revenue earnings to the country.
Neglect of Agricultural Research Institutes
Political and institutional instability is a factor that has
affected the management and performance of Nigeria
agricultural research institutes, established to assist farmers
and to develop new ways of finding solution to agro-related
problems. These institutions are grossly under coordinated and
underfunded.
Instability of Government Policy
The drawback in public policy was the absence of longterm consistency and predictability. Successive government
neglected and failed to implement previous policy strategies
and instead established new ones. Examples of previous
agricultural policies are Operation Feed the Nation (1976), the
Green Revolution (1980), Directorate of Food, Roads and
Rural Infrastructures (1986), fertilizer subsidies removal in
Mid 1990’s, 25% fertilizer subsidies restoration between 1999
and 2000 and Cassava Initiative (2002) [8].
Population Factor
Agricultural production and population growths are not
proportionate. Oyewole and Oloko reported that since 1980,
the population of Africa has risen by 53% while food
production increased by 45% [7].
Insecurity
Many farmers that live in the rural areas in the northern part
of Nigeria have abandoned farming and relocated for safety
due Boko Haram insurgence. In 2012, National Emergency
Management Agency (NEMA) reported that Boko Haram
insurgency and disasters in the North-East may lead to famine
because most of the small-scale farmers and big-time farmers
in the North are threatened by the Boko Haram activities. Over
65% of the farmers have already migrated to the southern
parts of Nigeria due to insecurity to human lives, livestock and
farmlands pose by this terrorist group [15].
Environmental Hazards
The challenges of drought/desertification, coupled with soil
erosion and oil spillage have remained very serious challenge
and threat to Nigerian agriculture. Human activities such as
overgrazing, oil exploration, bush burning, over-cultivation,
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International Journal of Agricultural and Biosystems Engineering
Vol:10, No:10, 2016
and deforestation and natural forces are responsible for these
problems. Soil degradation and deforestation are some of the
ways that the problems often manifest [15].
International Science Index, Agricultural and Biosystems Engineering Vol:10, No:10, 2016 waset.org/Publication/10006904
III.
AGRICULTURE AND TECHNOLOGY
Agricultural technology can be categorised into three
classes:
i. Traditional Agricultural Mechanization Technologies
ii. Draught Animal Technology
iii. Engine Powered Machinery Technology
For national food sufficiency and sustainability purposes,
the drudgery traditional and draught animal agricultural
technologies must be advanced to engine powered machinery
technology. This means taht the subsistence farming system
needs to be upgraded to a commercial farming system. Efforts
should be geared towards the replacement of human and
animal efforts with motorised mechanical and automated
systems. This transformation involves the increase of the use
of tractors as prime movers and electric based modern
harvesting and post-harvest equipment for different farming
operations. Some of these equipments are grinders, threshers,
aircraft (for spraying), mills, irrigation pumps, and selfpropelled machines for production, and various kind of
harvesters [16].
A. Manufacturing of Agricultural Machines
Local fabricators in some African countries are still in the
"cut and weld" stage of production technology. The peddling
of low or substandard machines continues to thrive in the
agro-allied market in the continent. Consequently, a
reasonable number of the imported machines are not
optimised in their operation and in some cases they are not
working at all. Most farmers cannot afford farm machines due
to the high acquisition and maintenance costs. Mechanisation
is a big issue in the small-size farm because it is against the
"economies of scale" [1].
Post-harvest processing operations are required in most
agricultural products that sold in the formal market. The
market for processing machines is of significant economic
importance and offers great opportunities for local companies
which specialise in the fabrication of agro-allied machinery
(both "pre" and "post" harvest machines). A vibrant domestic
agro-allied machinery fabrication is pivotal to food security
and industrialisation in Nigeria. Local fabrication of
agricultural processing equipment will significantly reduce
cost production, and downtime and will ultimately increase
productivity. These machines include cassava processing
equipment (grater, press, dryer, chipper, etc.), rice processing
machines (mill, de-stoners, etc.). Other equipment are honey
press, maize sheller, hammer mill, plate mill, planters, feed
mill mixers, graders, multi-purpose grain thresher, etc.
Postharvest operations are needed for storage, breakdown into
smaller units for packaging and workable units as source of
food and raw material [8].
The development in the agricultural sector that will enhance
food security largely depends on modern scientific and
technological approach to farming. This includes the use of
International Scholarly and Scientific Research & Innovation 10(10) 2016
machinery in all the sections of agriculture for effective allencompassing growth in the sector. These types of machinery
include general planting process machines (ploughing, tilling,
etc. machines), harvesting machines, and post-harvest
machines (cassava chipper and grater, juice squeezer, leaf
drying machine, yam chipper and pounder, maize Sheller and
grater, etc.) [17].
B. Methods of Manufacturing Agricultural Machines:
Forward and Reverse
Basically, there are two principal engineering approaches to
manufacturing:
Forward engineering (FE) – This is the conventional
step of moving from a high-level model of logical
abstractions and, implementation-independent designs to
the physical implementation of a system.
Reverse engineering (RE) – This could be described as a
production process which depends on the understanding
of an existing component, device or product either
mechanical, electrical or software. The existing product is
disassembled, and analysed for the purpose of producing
the same thing or something similar without really
copying the original [18]. It is the attainment of learning
curve from an existing product for the purpose of
manufacturing the same or similar product. RE often
involves taking components of a product, and analysing
the components relations, and other functional properties
[19].
IV. RE FOR DOMESTICATION OF FOREIGN TECHNOLOGIES
The application of indigenous technologies has the potential
of rapidly making positive sustainable growth in the sector.
The local participation should include effective funding and
coordination of agricultural research and to disseminate the
research results to the farmers who are mostly in the rural
areas [9]. Generally, infrastructure plays a critical role in
economic development and infrastructure interacts with the
economy in multiple and complex ways. Technological
advancement is the main thrust of present global
competitiveness. To be able to compete, it requires wellarticulated and coordinated nation-wide strategy for
agricultural development and training of engineering and
science personnel [20].
Agricultural machinery problems in Nigeria can be
overcome through the building of indigenous capacities in
agricultural machinery technologies of both human and
manufacturing infrastructure. Domestic development of
agricultural machinery will be economically rewarding to
Nigeria and her neighbouring countries. Postgraduate
academic programmes to compliment the efforts of the various
agriculture research institutions can be exploited to develop
domestic design and fabrication of agricultural machinery
capacities.
Adequate domestic production of agricultural machinery
will positively provoke food production and agribusiness. For
rapid development of agricultural machinery, RE approach
should be the choice in developing economies like Nigeria.
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The reason behind this is because of its immense design and
production time benefits. Fig. 1 shows the various RE steps
for machine production.
International Science Index, Agricultural and Biosystems Engineering Vol:10, No:10, 2016 waset.org/Publication/10006904
Fig. 1 RE steps for machine production
V. CHALLENGES OF REVERSE ENGINEERING IN NIGERIA AND
THE WAY FORWARD
A. Inadequate Functional and Accessible Laboratory
Functional laboratories for basic science and engineering
tests and analyses are fundamental for RE to be effective. It is
disheartening that the trend in the dynamics of the global
technological advancement is not being reflected in Nigeria's
research institutions 56 years after independence. The
country's research activities are being bedevilled with
inadequate research infrastructure, qualified personnel and
grossly inadequate funding and support. Technology never
thrives in the absence of effective science and engineering
R&D [21]. For a viable and dependable R&D, the following
factors must be enhanced: R&D skilled personnel, research
facilities and equipment, research grant/fund and management
of research resources (human and materials). R&D
programme should include both generation of new products
and production processes [22], [23]. Production industries
(especially multinationals) through government policy should
be made to contribute and give research grants to institutions.
Collaboration between tertiary institutions, manufacturing
sector and research institutions should be harnessed and
encouraged. This synergy is vital for optimising opportunities
and efforts and in keeping up with the ever short technology
and innovation cycles [24].
B. Power/Electricity Supply
The Manufacturers Association of Nigeria (MAN), in its
MAN Economic Review 2003-2006 has noted poor
performances of some sub-sectors. It attributed such low
performance to among others, "deficient and depleting state of
infrastructure". It further said that the poor performance of the
manufacturing sector, especially in relation to its low
contribution to GDP and the high cost of production, is
attributed mainly to the epileptic and deteriorating power
supply to industries [25]. In Nigeria and some other countries
of Africa, localized or dedicated electric plants are used to
operate agricultural processing plants. This increases the cost
power production by 5 if compared to the use of national grid.
This adds to the overall cost of production and ultimately the
selling price of these machines. Small hydropower that will
not be connected to the national grid can be used to develop
agricultural industrial estates across the country since the
International Scholarly and Scientific Research & Innovation 10(10) 2016
small hydropower potentials are also spread across the
country. This will ensure that there is a regular power supply
to agricultural for machinery and post process industries in the
various estates.
C. Poor and Uncoordinated Engineering Material Market
There is a very strong correlation between material,
manufacturing process and design process. In fact, the design
process is strongly controlled by material and production
facilities available. It is a common occurrence in Nigeria that
the specifications of most structural materials are hardly
known and a reasonable number of engineering materials are
bought as fairly used popularly called Belgium materials. For
instance, the properties of available second hand used medium
and high carbon steel materials are very difficult to guarantee.
The foundry sector dwindles and lacks adequate attention
from the government. The engineering market in Nigeria is
predominantly associated with the following issues [24]: Poor
standard control, Influx of substandard and fake engineering
materials, Poor engineering market directory and nonexistence
of well controlled specialised engineering market [9].
D. Advanced Manufacturing Technology (AMT)
No matter the manufacturing approach adopt, apart from the
dynamism that exists in technology, globalisation has made
the competition stiffer. Manufacturers should know that they
are competing with the rest of the world, in whatever
agricultural product that they are producing, irrespective of
their location. This means, whatever concept that you have, if
you do not develop it well, someone else in anywhere can do it
better and ship it to your domain for sale. This is one global
trend that is killing local manufacturers in Nigeria.
Inadequate manufacturing personnel and infrastructures are
major economic growth and sustainability barriers in Nigeria
and pose a strong challenge to technological advancement.
Consequently, the economic potentials of the abundant natural
resources could not be optimally harnessed due to lack of
value addition, leading to poverty, unemployment and low
standard of living [9]. To compete in the global market,
therefore, the cost of production, quality of product and time
of delivery must be optimised. The world is already
experiencing a sophisticated computer-based design and
production system, called, advanced manufacturing
technology (AMT). The key advantages of this high-tech
manufacturing system are quality, low cost and fast rate of
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World Academy of Science, Engineering and Technology
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production which makes products globally competitive. AMT
excellence lies in the fact that it has transformed engineering
and conventional manufacturing from the era of slow,
monotonous and error prone to the era of more convenience,
accurate, faster, product consistency and computer-aided
machines. This is obvious in virtual manufacturing where an
appropriate software is used to designed, and modelled a
product for simulation, analysis and optimization. These can
be carried out in the comfort of the individual’s home.
The AMT programme of National Agency for Science and
Engineering Infrastructure (NASENI) is very critical in
advancing manufacturing of agriculture and production
machines. To meet the current agricultural and manufacturing
challenges, the scope of the programme needs to be expanded
and enhanced adequately. AMT is the key to food sufficiency
and technological advancement in Nigeria. Human and
infrastructure capacities building through training and
acquisition of existing AMT technologies are vital in
stimulating domestic technologies participation through RE.
This will boost indigenous capacity in AMT equipment
design, production, operations and maintenance [24], [26].
E. Government Policies and Decision
Explicating the reasons for the successful and rapid
industrialization witnessed in some Asian Countries, Etukudo
noted that the protection of the home markets at the early
industrialization stage provided Japan, the Republic of Korea
and other emerging markets of East Asia a “captive market”,
which resulted in high profits and allowed domestic
companies to make greater investment and learn-by-doing to
improve product quality [27]. The government should
concentrate on the development of local industries genuinely
rather than wooing foreign companies at the expense of local
ones.
Nigeria government should as a matter of urgency identify
the nation’s key areas in manufacturing and strengthens these
areas further by any of the following ways:
Import tariff and other charges reduction on raw materials
and services
Government’s technical and financial assistance in
acquiring state of the art manufacturing facilities and
skills.
Bound and enforce the importation of goods the nation
has the capacity to manufacture.
IV.
CONCLUSION
Nigeria is a country rich in agriculture; the country's
economy cannot be strong and vibrant without growth in this
sector. Agriculture that is a key determinant of national
economic growth must be developed consciously to give room
for food sufficiency and sustainability. Massive manufacturing
infrastructural development and human capacity development
in the manufacturing of agricultural machinery through RE
should be encouraged by Nigeria government. AMT is
indispensable to national technological growth especially the
growth of the manufacturing industries in any nation. To have
International Scholarly and Scientific Research & Innovation 10(10) 2016
agricultural machinery that can meet international standards
and compete globally, there is need to develop AMT.
REFERENCES
[1]
[2]
[3]
[4]
[5]
[6]
[7]
[8]
[9]
[10]
[11]
[12]
[13]
[14]
[15]
[16]
[17]
[18]
[19]
[20]
693
Faleye T, Adebija J. A. and Farounbi A. J. (2012). Improving SmallFarm Productivity through Appropriate Machinery in Nigeria.
International Research Journal of Agricultural Science and Soil Science.
(ISSN: 2251-0044) Vol. 2(9) pp. 386-389
Emmanuel Ukeje (2004). Modernising Small Holder Agriculture to
Ensure Food Security and Gender Empowerment: Issues and Policy.
Vaughan Ignatius Olusoji, Afolami Carolyn Afolake and Oyekale
Tolulope Olayemi, (2014). An Analysis of Nigeria Food Imports and
Bills. International Journal of Economics, Commerce and Management
Vol. II, Issue 9
Sunday Michael Ogwu (2013). ‘Nigeria Imported Food Items worth
N630bn in 2012’. Daily Trust Published on Wednesday, 11 September
2013.
Ajav E. A. (2000). Animal Tractor as a source of power for Agricultural
Development in Nigeria. http://www.atnesa.org
Azogu I. I. (2009). Promoting Appropriate Mechanization Technologies
for Improved Agricultural Productivity in Nigeria: The Role of the
National Centre for Agricultural Mechanization. Journal of Agricultural
Engineering and Technology (JAET), Volume 17 (No. 2) December
2009.
Oyewole B.A. and Oloko S A (2006). Agricultural and Food Losses in
Nigeria – the Way Out. Forum for Agricultural Risk Management in
Development. http://www.vri-online.org.uk/ijrs/April2006/Nigeria%20%20the%20way%20out.pdf. Retrieved 5/10/2016
Omobowale Mobolaji O (2010). Problems facing Local Manufacturers
in the Nigerian Agro-Allied Machine Fabrication Industry. ATDF
Journal Volume 7, Issue 3/4 2010
Ebhota, W. S. and Ajuwa, C. (2012). Infrastructural Capacity
Development in Manufacturing: A Key to Industrial Explosion in
Nigeria. Nigerian Institute of Industrial Engineers (EIIE), 2012
International Conference, Benin City.
National Orientation and Public Affairs (1999). "Nigerian Economic
Policy (1999-2003)"- Federal Ministry of Information and National
Orientation, Abuja.
Adelaja A.O. (2000): The Importance of Small and Medium Scale
Industries in a Developing/Underdeveloped Economy: Nigeria as a Case
Study; Proceedings of 6th Africa-USA International Conference on
Manufacturing Technology.
Linda, V.B. (2001). Economy: Africa South of the Sahara. 30th Edition
(London: Europe Publications) pp 876-904.
I. Oji-Okoro, "Analysis of the Contribution of Agricultural Sector on the
Nigerian Economic Development," World Review of Business Research,
vol. 1, pp. 190-200, 2011.
Robert O. Dode (2012). Nigeria, Mono-Product Economy and the
Global Economic Recession: Problems and Prospects. Global Journal of
Human Social Science Sociology, Economics & Political Science,
12(11-C)
Emmanuel Mayah (2012). Boko Haram Terror War: Food Scarcity
Looms
in
Nigeria.
Africa
Review.
April
1,
2012.
Http://Www.Africareview.Com/Special-Reports/Boko-Harams-FoodThreat/-/979182/1377876/-/7v1v8kz/-/Index.Html.
Onwualu, A. P, C. O. Akubuo and I. E. Ahaneku (2006). Fundamentals
of Engineering for Agriculture. Immaculate publications limited, Ogui
N/L, Enugu, Nigeria.
Hahn S. K. (14/11/2016). An Overview of Traditional Processing and
Utilization
of
Cassava
in
Africa.
Available:
http://www.fao.org/wairdocs/ILRI/x5458E/x5458e05.htm
Rouse
M.
(2007).
Reverse
Engineering.
Available:
http://searchsoftwarequality.techtarget.com/definition/reverseengineering
Shooter, S. (2008). Reverse Engineering to Design Forward: An
Introduction to Engineering Experiential Learning Module with Video
Podcasts. Paper presented at 2008 Annual Conference & Exposition,
Pittsburgh, Pennsylvania. https://peer.asee.org/3716
Mbonu O. J. 2000, Practical Training of Engineering Personnel–
Challenges Ahead. Proceedings of COREN 10th Engineering Assembly,
Abuja, Nigeria, pp30-36
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[21] Paul, N. (2015). Research in Tertiary Institutions in Nigeria: Issues,
Challenges And Prospects: Implication for Educational Managers. IOSR
Journal of Humanities and Social Science (IOSR-JHSS), 20(6), 45-49.
[22] Lucky Osaretin Odia and Samson Imasogie Omofonmwan (2013).
Research and Development Initiatives in Nigeria: Challenges and
Prospects. Mediterranean Journal of Social Sciences, 20(6)
[23] Chikwe, C. K., Ogidi, D., Reuben, C., & Nwachukwu, K. (2015).
Challenges of Research and Human Capital Development in Nigeria
Journal of Education and Practice, 6(28), 44-47
[24] Ebhota W. S. (2011), “Technical Vocational Education and Training
(TVET); A Panacea for Africa Development”, National Association of
Teachers of Technology (NATT) Conference, Umunze 2011.
[25] Umar Ibrahim (2008). Analysis of Strategic Factors Affecting the
Performance of Small and Medium Industries (SMIs) In Borno State,
Nigeria. http://stclements.edu/grad/Graduma.pdf
[26] Naseni. (14/11/2016). Advanced Manufacturing Technology. Available:
http://www.naseni.org/advanced-manufacturing-technology-amt.html
[27] Etukudo Akpan (2005). Issues in Privatisation and Restructuring in SubSahara
Africa.
Retrieved
07/06/2005:
http://www.nigerdeltacongress.com/iarticles/issues_in_privatization_and
_rest5.htm
International Scholarly and Scientific Research & Innovation 10(10) 2016
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Williams Ebhota