In this article focus is put on how the current Human rights mechanism is a part of the wider neo-colonial strategy which is aimed at assisting the market forces only addressing the neo-colonial injustices and providing justice. The aim behind this work is to study and critique the works of majorly Jessica Whyte and Samuel Moyn in this concern upon as to whether Human Rights is a form of Neocolonialism and cannot therefore address the injustices of the neo-liberal global order.
In this article focus is put on how politics influences International Law majorly in the form of coercive and cooperative ways like ideological imposition, sovereign self-interest games, humanitarianism, good governance, customs and treaties as well as ways surrounding the solution of international conflicts and dealing with non-state actors. Also, a perspective is put forth upon as to how influence of politics on International Law affects the legitimacy of the International legal order.
<p>Entanglement is an important resource for various applications of quantum computation. Another important endeavor is to establish the role of entanglement in practical implementation where system of interest is affected by various kinds of noisy channels. Here, a single classical bit is used to send information under the influence of a noisy quantum channel. The entanglement content of quantum states is computed under noisy channels such as amplitude damping, phase damping, squeesed generalised amplitude damping, Pauli channels and various collective noise models on the protocols of quantum key distribution.</p><p> </p>
The development of rural infrastructure is an important component in improving the standard of living in developing countries. In India, the government has taken up numerous measures to contribute toward the development of rural infrastructure, thereby initiating the Bharat Nirman Yojana (BNY). In this research study, the Malmquist model of input‐oriented DEA has been conducted to determine the efficiency of six schemes of the BNY for the time period of 2013–2015. The input variables selected were; designated investment and total amount released by the central government against the output variable of number of villages covered or achieved. The analysis of the data observed that only the telecommunication scheme has constant efficiency of 1.000 for all the years. On the other hand, the least efficiency from the Constant Return to Scale model was found for Accelerated Irrigation Benefit Programme (AIBP) (0.014 for 2013; 0.026 for 2014 and 0.007 for 2015). Again, the Variable Return to Scale model indicated technical efficiency for the electrification scheme and telecommunication for all the years. Further, in terms of technical efficiency, all the schemes had decreasing change where Pradhan Mantri Gram Sadak Yojana (PMGSY) showed the highest change with 99.98% and the telecommunication scheme reflected the least change. Furthermore, the productivity index was found to be highest for Telecommunications (1.443) followed by AIBP (1.312), and the lowest productivity index was found for Rajiv Gandhi Gramin Vidyutikaran Yojana (RGGVY) (0.353). Thus, it was interpreted that among all the schemes, telecommunications scheme was the most efficient.
This work was supported by 'The Cross-Ministry Giga KOREA Project' grant from the Ministry of Science, ICT and Future Planning, Korea. Also, it was in part supported by the Soonchunhyang University Research Fund. ; With a more Internet-savvy and sophisticated user base, there are more demands for interactive applications and services. However, it is a challenge for existing radio access networks (e.g. 3G and 4G) to cope with the increasingly demanding requirements such as higher data rates and wider coverage area. One potential solution is the inter-collaborative deployment of multiple radio devices in a 5G setting designed to meet exacting user demands, and facilitate the high data rate requirements in the underlying networks. These heterogeneous 5G networks can readily resolve the data rate and coverage challenges. Networks established using the hybridization of existing networks have diverse military and civilian applications. However, there are inherent limitations in such networks such as irregular breakdown, node failures, and halts during speed transmissions. In recent years, there have been attempts to integrate heterogeneous 5G networks with existing ad hoc networks to provide a robust solution for delay-tolerant transmissions in the form of packet switched networks. However, continuous connectivity is still required in these networks, in order to efficiently regulate the flow to allow the formation of a robust network. Therefore, in this paper, we present a novel network formation consisting of nodes from different network maneuvered by Unmanned Aircraft (UA). The proposed model utilizes the features of a biological aspect of genomes and forms a delay tolerant network with existing network models. This allows us to provide continuous and robust connectivity. We then demonstrate that the proposed network model has an efficient data delivery, lower overheads and lesser delays with high convergence rate in comparison to existing approaches, based on evaluations in both real-time testbed and simulation environment. ; Yes ; http://www.plosone.org/static/editorial#peer
