Does R&D Intensity and Innovative Activities drive Indian Pharmaceutical Exports?

664-666R&D intensity is critical to the growth of hi-tech sectors like pharmaceuticals and information technology and is aimed at boosting innovation. In turn, innovation brings new products that could earn revenues to further boost R&D intensity1. Indian pharmaceutical industry earns nearly sixty percent of its revenues from exports and is a leader in global generics market with largest share of ANDA and DMF filings. Significant increase in patenting activity is also observed post India’s accession to TRIPS agreement in 1995 and subsequent introduction of Product Patent Regime in 20052. This study aims at establishing a causal relationship amongst R&D intensity, patents, regulatory filings and export intensity. Also, the impact of these variables on export intensity of Indian Pharmaceutical sector has been studied by fitting them into an econometric model

Does R&D Intensity and Innovative Activities drive Indian Pharmaceutical Exports?

664-666R&D intensity is critical to the growth of hi-tech sectors like pharmaceuticals and information technology and is aimed at boosting innovation. In turn, innovation brings new products that could earn revenues to further boost R&D intensity1. Indian pharmaceutical industry earns nearly sixty percent of its revenues from exports and is a leader in global generics market with largest share of ANDA and DMF filings. Significant increase in patenting activity is also observed post India’s accession to TRIPS agreement in 1995 and subsequent introduction of Product Patent Regime in 20052. This study aims at establishing a causal relationship amongst R&D intensity, patents, regulatory filings and export intensity. Also, the impact of these variables on export intensity of Indian Pharmaceutical sector has been studied by fitting them into an econometric model

MINA: {C}onvex Mixed-Integer Programming for Non-Rigid Shape Alignment

We present a convex mixed-integer programming formulation for non-rigid shape matching. To this end, we propose a novel shape deformation model based on an efficient low-dimensional discrete model, so that finding a globally optimal solution is tractable in (most) practical cases. Our approach combines several favourable properties: it is independent of the initialisation, it is much more efficient to solve to global optimality compared to analogous quadratic assignment problem formulations, and it is highly flexible in terms of the variants of matching problems it can handle. Experimentally we demonstrate that our approach outperforms existing methods for sparse shape matching, that it can be used for initialising dense shape matching methods, and we showcase its flexibility on several examples

Decoupling a Cooper-pair box to enhance the lifetime to 0.2 ms

We present a circuit QED experiment in which a separate transmission line is used to address a quasi-lumped element superconducting microwave resonator which is in turn coupled to an Al/AlO$_{x}$/Al Cooper-pair box (CPB) charge qubit. In our measurements we find a strong correlation between the measured lifetime of the CPB and the coupling between the qubit and the transmission line. By monitoring perturbations of the resonator's 5.44 GHz resonant frequency, we have measured the spectrum, lifetime ($T_{1}$), Rabi, and Ramsey oscillations of the CPB at the charge degeneracy point while the CPB was detuned by up to 2.5 GHz . We find a maximum lifetime of the CPB was $T_{1} = 200\ \mu$s for $f = 4$ to 4.5 GHz. Our measured $T_{1}$'s are consistent with loss due to coupling to the transmission line, spurious microwave circuit resonances, and a background decay rate on the order of $5\times 10^{3}$ s$^{-1}$ of unknown origin, implying that the loss tangent in the AlO$_{x}$ junction barrier must be less than about $4\times 10^{-8}$ at 4.5 GHz, about 4 orders of magnitude less than reported in larger area Al/AlO$_{x}$/Al tunnel junctions