Manideepa Mukherjee

University of Massachusetts Amherst | UMass Amherst · School of Computer Science

Smart textiles are being used by multiple technologies for various health care applications. In my recent research, I have designed a textile-based smart sanitary napkin sensor. It helps in identifying multiple gynaecological diseases by regular monitoring of menstrual blood loss volume. This paper talks about the technical and physical challenges...

Self-monitoring of menstrual blood loss volume could lead to early detection of multiple gynecological diseases. In this paper, we describe the development of a textile-based blood volume sensor which can be integrated into the sanitary napkin to quantify the menstrual blood loss during menstruation. It is based on sensing the resistance change det...

In this paper, DFGenTool, a dataflow graph (DFG) generation tool, is presented, which converts loops in a sequential program given in a high-level language such as C, into a DFG. DFGenTool adapts DFGs for mapping to Coarse Grain Reconfigurable Architectures (CGRA) to enable a variety of CGRA implementations and compilers to be benchmarked against a...

Designing high performance Software Defined Radio (SDR) with low power and flexibility is a major challenge. While the high performance DSP processors are unable to meet the speed requirements of these SDRs, System on chips (SOCs) are also not suitable because of their limited flexibility. Recently dynamically reconfigurable FPGAs have emerged as h...