ماحولیاتی و موسمیاتی تغیرات سے متعلق عوامی ذمہ داریاں اور آگہی ( سیرت النبیﷺ کی روشنی میں) Public Responsibilities and Awareness Regarding the Environmental and Climate Changes (In the light of the Prophet's life)

Allah has made the man as his caliph on earth and created the natural resources of the universe for the sake of human beings. Due to advancement of industrialization the natural resources and environment have been threatened while the environmental pollution has become an international challenge in modern times. Some of the guiding principles mentioned in the Sirat-un-Nabiﷺ are helpful in basic guidance of humanity, such as the prohibition of extravagance and oppression, the gratitude for divine blessings, the observance of the rights of worship, and so on. However, there are certain rules and decrees that provide specific guidelines for the protection and proper use of certain natural resources, such as water, trees, agriculture, forests, wind, etc. That some of them have been ordered to perform their duties, Such as the commands to plant trees, to keep water clean, to cultivate, to raise animals and to be gentle with them, etc. Such as prohibitions of cutting down trees unnecessarily, of polluting water, of spoiling fields, and the prohibition of cruelty to animals, etc. In this study, these demands have been explained in some detail in the light of Quran and Hadiths. Key Words: Environment, Pollution, Responsibilities, Sirat -un-Nabiﷺ

Performance Enhancement in Cognitive Radio Sensor Networks

Wireless sensor networks (WSNs) have become the integral part of our daily life activities. These WSNs can utilize the unlicensed industrial, scientific and medical (ISM) band to communicate the sensed data. The ISM band has been already saturated due to overlaid deployment of WSNs and other wireless technologies such as WiFi etc. To solve this problem, WSNs have been powered up by cognitive radio (CR) capability and this rise to a new type of network called as cognitive radio sensor networks (CRSNs). In CRSNs, the unlicensed users can utilize the unlicensed as well as licensed band opportunistically. The licensed users are called the primary radio (PR) nodes where as the opportunistic unlicensed users are called as secondary or CRSN nodes. By using CR technique, CRSN nodes can utilize the spectrum holes opportunistically avoiding the interference with PR nodes. CRSNs can be deployed for number of purposes such as dynamic spectrum access to cognitive radio nodes, opportunistic channel access, overlaid deployments of multiple concurrent networks, and communication under different spectrum regulations. The potential applications of CRSNs include indoor sensing applications, multimedia applications, multi-class heterogeneous sensing applications, and real-time surveillance applications etc. All these applications require high bandwidth for communication along with avoiding CR-PR interference. In this regard, novel techniques are required which can provide large bandwidth to CRSN nodes to support their data requirements. Channel bonding (CB) is a technique to provide wide band channel by combining multiple contiguous channels. By using channel bonding (CB) technique, CRSN nodes attempt to find and combine contiguous channels to avail larger bandwidth. In this PhD thesis, we have made several contributions. Firstly, we have provided an extensive literature review of CB schemes, made meaningful classification of CB approaches and highlighted the applications of CB in various networks. Next, we have enhanced network simulator NS-2 and proposed a framework for simulating CRSNs in NS-2. Third, we have proposed an algorithm Primary Radio Activity aware Channel Bonding algorithm (PRACB) to perform channel bonding in CRSNs. We have implemented our proposed scheme PRACB in NS-2 and compared it with three schemes sample width algorithm (SWA), cognitive radio networks over white spaces (KNOWS) and AGILE. We then evaluated the performance of PRACB in different PR activity regimes. The simulation results show that our algorithm significantly avoids CR-PR harmful interference and CB in cognitive radio sensor networks (CRSNs) provides greater bandwidth to CRSN nodes. Next, we have proposed two remaining idle time aware channel bonding schemes RITCB and RITCB-IP, which select channels for CRSN nodes based on remaining idle time. In the end, we have performed comparison analysis of our schemes and shown that intelligent channel selection effectively improves the delivery ratio of CRSN nodes. In addition, some future research directions have also been highlighted at the end of this thesis.