Towards a unified definition of supply chain management:the four fundamentals

A wide range of definitions of supply chain management (SCM) have been developed over the last three decades. The philosophy of SCM is based firmly on a recognition that it is only by working in a more integrated manner that competitive advantage can be maximised. However, for this to become a reality the development of common definitions and understandings between supply chain partners is a critical success factor. The corollary of this is that a lack of definitional consistency and a common understanding is an inhibitor to the successful adoption of SCM thinking in practice. This paper reviews a number of definitions of SCM, as well as discussions and analyses of such definitions. This leads to the central point posited in the paper – the need for a ‘unified definition’. Such a definitional construct, labelled the Four Fundamentals of SCM, is proposed with the core of the paper providing a narrative description of this construct based on a wide range of literature.

Case Comment : Challenging the validity of leasehold guarantees:undue influence, non-est factum and formality issues

Case: Beardsley Theobalds Retirement Benefit Scheme Trustees v Yardley [2011] EWHC 1380 (QB) (QBD). The recent case of Beardsley Theobalds Retirement Benefit Scheme Trustees v Yardley, nicely illustrates, inter alia, the impact of the contractual defences of undue influence and the plea of non est factum in the context of avoiding liability under leasehold guarantees, within the setting of the landlord and tenant relationship. Additionally, the case also gives us an insight into the possible application of other technical defences relating to the law of formalities for leases. Judgment in this case was handed down on September 30, 2011.

Recent advances in fundamentals and applications of random fiber lasers

Random fiber lasers blend together attractive features of traditional random lasers, such as low cost and simplicity of fabrication, with high-performance characteristics of conventional fiber lasers, such as good directionality and high efficiency. Low coherence of random lasers is important for speckle-free imaging applications. The random fiber laser with distributed feedback proposed in 2010 led to a quickly developing class of light sources that utilize inherent optical fiber disorder in the form of the Rayleigh scattering and distributed Raman gain. The random fiber laser is an interesting and practically important example of a photonic device based on exploitation of optical medium disorder. We provide an overview of recent advances in this field, including high-power and high-efficiency generation, spectral and statistical properties of random fiber lasers, nonlinear kinetic theory of such systems, and emerging applications in telecommunications and distributed sensing.