A Decision Support System for Information Technology Policy Formulation

The implementation of an effective ICT policy requires the development of material and intellectual resources to support good decision making by humans.   In this paper, we examined and analysed Information Technology (IT) policy development process with a view to developing automated system supporting such process.  The data used for this work were obtained through purposeful interview of five professionals and experts who are familiar with IT policy formulation in Nigerian environment.  Some of the experts had earlier participated in policy design and formulation process at national level.     The Hierarchical Input Process Output (HIPO) model was used to analyse various input (contributions of professionals and experts) and output (agreed resolution of the professionals and experts) of the system.  The information obtained from the experts was represented using rule base techniques.  The overall system was designed using the Unified Modelling Language (UML) and implemented using the Visual Prolog version 7.0.  The metrics used for evaluating the system includes: processing time, decision process efficiency and cost effectiveness.   We compared the result of our system with that of the traditional manual system in use.  Our result showed that the DSS for policy formulation process enhances the decision output significantly when compared to the manual process where no DSS is used.  Moreover, the quality of policy produced by our DSS system is more consistent when compared with the manual process.

Design and Development of Student Data Retrieval System via GSM

Remote data access and machine to machine communication are some of the value added services made possible by the GSM communication technology. With this service, automated access to records, information and updates can be achieved by the use of the GSM short message system (SMS) queries. This work presents the development of a remote access platform for remote access to a database. The system utilizes the GSM-SMS technology and an interactive voice recorder system to access data. The database contains students result, financial status and information on the number of exeats taken. This data is accessed by calling dedicated phone number and following the voice prompt voice prompt, the user is able to access the desired information from the database. Once the required data is accessed, the GSM module transmits this query result back to the caller in SMS format. The system provides a cost effective channel for accessing data from remote databases

Towards Development of an Indigenous African Language-based Programming Language

Programming languages based on the lexicons of indigenous African languages are rare to come by unlike those based on Asian and / or European languages. It is opined that an African native language-based programming language would enhance comprehension of computer-based problem solving processes by indigenous students and teachers. This study intends to attempt a design and implementation of an African native language-based programming language using Yoruba as case study. Yoruba is the first language of over 30 million people in the south-west of Nigeria, Africa; and is spoken by over one hundred million people world-wide. In preparation towards actual implementation of a prototype of the intended programming language, a mini token recognizer has been developed in QBasic. Keywords— Native language-based programming languages, Yoruba language, Digital divide, Information and communication technology, prototype implementation.

Valorization of Pennisetum purpureum (Elephant grass) and piggery manure for energy generation

This study investigated the biogas production potential of Pennisetum purpureum (Elephant grass) (El-g) codigested with piggery manure (PM) under mesophilic condition in order to combat the menace of weed in cropping systems as well as pollution problems emanating from disposal of PM. Prior to anaerobic digestion (AD), El-g was subjected to a combination of mechanical, thermal and alkaline pretreatments. Using cattle rumen content as inoculum, the pretreated El-g was anaerobically co-digested with PM while the raw El-g was also codigested with PM and served as control experiment. The physicochemical characteristics of feedstock were evaluated before and after the digestion period using standard methods. The initial high concentrations of chemical oxygen demand (COD) reduced significantly after digestion indicating efficiency of the digestion process. Also, there were reductions in concentrations of calcium and other parameter needed for microbial growth after the digestion which indicated their utilization by microbes to generate biogas. Biogas production began on the 5th and 7th days and was progressive until 30th and 24th days in both digestions after which a decline was observed until the end of the experiment. For the digestion period of 37 days, the total biogas recorded from the pretreated and untreated experiments were 409.5 and 184.1 m3 CH4/kg VS with average of 11.07 and 4.98 m3 CH4/kg VS/day respectively. The study concluded that co-digestion with piggery dung enhanced the biogas producing capacity of El-g hence advocated

EXPERIMENTAL DESIGN AND DEVELOPMENT OF LOCALLY MADE PARABOLIC TROUGH SOLAR THERMAL COLLECTOR UNIT

The design and analysis of Parabolic Trough Solar Thermal Collector (PTSTC) system used to generate hot/steam water for domestic and industrial purposes were carried out. The parametric studies were also conducted on the collector, study the effectiveness of hot water production for potential applications. The PTSC was designed with Parabolic Software version 2.0. The fabrication and design were done with a combination of reflector surface, reflector support, absorber pipe and wooden stand. The absorber pipe was painted in black colour while the trough was manually operated. The flow of water in the system follows the recycling process repeated during data acquisition. The ambient temperature, the inlet and outlet temperature of the receiver and total solar radiation on the PTSC were recorded. Different flow rate of the Heat Transfer Fluid (HTF) was tested at 0.021, 0.022, 0.023 and 0.024 kg/s respectively. Collected data showed the maximum outlet water temperature attained as 72oC. The average outlet temperature increased from 36oC at 10:30 hour to 69.84oC at 16:00 hour. The average beam radiation during the collection period was 699 W/m2. Different flow rates show that the lower the flow rate, the higher the efficiency of the system. The study revealed that the developed parabolic trough solar collector is viable for the production of sterilized water and low stage steam for domestic and industrial purposes