M. Lavarini scite author profile

The wider and wider availability of powerful, lowcost mobile devices (e.g., smartphones or tablets) is deeply changing healthcare, so that the mHealth term has been coined. The announcement of healthcare projects by market big players as Apple and Samsung confirms this trend. In particular, the opportunity to collect reliable patient data automatically allows to enhance patient/user self-management and helps in better delivering therapies. In this paper, authors propose an innovative architecture for a smart pill-dispenser enhanced by a smartdevice that furnishes the capability of automatically identifying the user, other than logging medicine in-take activities. A real-world prototype, based on an emulated pilldispenser connected via an NFC link to different smartdevices, has been purposely realized. Experimental tests confirm the architecture feasibility. Low-cost requirements are satisfied and a user-friendly interface has been implemented.

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Inexpensive SDR-based longwave radio controlled clock for time dissemination in industrial wireless sensor networks

Depari¹,

Flammini²,

Lavarini³

et al. 2015

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LF and VLF (very low frequency) wireless links have long been used to perform time and frequency dissemination. Indeed, several standard time services exploiting (V)LF signaling are continuously transmitting in many locations around the world, despite they face the competition from the Global Positioning System (GPS), which offers an higher clock synchronization accuracy. In fact, (V)LF signaling ensures an overall accuracy adequate for most of civil and industrial applications, offering indoor reception capability at lower cost and lower power than GPS systems. This work describes a full digital implementation, exploiting the Software Defined Radio paradigm, of a LF receiver, capable to simultaneously perform both the amplitude and phase demodulation of the incoming time reference signal, and of a servo-clock for the time synchronization of wireless sensor network nodes. Despite the DCF77 standard has been considered for the real world implementation, the SDR approach allows to easily migrate to other similar standards worldwide available. The increased system complexity is mitigated by the improved flexibility; in addition, the computational core of the SDR can be sized to be shared among several wireless technologies simultaneously handled. The realworld prototype is implemented by means of a single inexpensive digital signal controller (a member of the dsPIC33 family from Microchip), requiring very few external components. Several experiments have been carried out in a controlled environment, confirming an overall sub-millisecond time synchronization accuracy.

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Performance of all-digital waveform generators for narrowband power line communications

Depari

Lavarini

Flammini

et al. 2016

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M. Lavarini

Enhanced software defined meter for smart utility networks

A smartphone-enhanced pill-dispenser providing patient identification and in-take recognition

Inexpensive SDR-based longwave radio controlled clock for time dissemination in industrial wireless sensor networks

Performance of all-digital waveform generators for narrowband power line communications

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