Browsing by Subject "RFID"
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Item Open Access Intra-Operative Surgical Instrument Tracking with Radio-Frequency Identification(2021) Hill, IanAs data revolutionizes supply chains across diverse industries, healthcare lags. Sensor systems have struggled to automate the capture of actionable data without impeding clinical workflows. This work focuses on the development of a radio-frequency identification system to track surgical instruments in the operating room. The system was developed to integrate into existing infrastructure without impacting the delivery of care. In the background, it collects data that can be used to measure the presence of a surgical instrument, infer use, and predict location. This novel data was leveraged to eliminate unnecessary instrument supplies and begins to enable analytics describing how surgery is performed.
Item Open Access Modulated Backscatter for Low-Power High-Bandwidth Communication(2013) Thomas, Stewart JenningsThis thesis re-examines the physical layer of a communication link in order to increase the energy efficiency of a remote device or sensor. Backscatter modulation allows a remote device to wirelessly telemeter information without operating a traditional transceiver. Instead, a backscatter device leverages a carrier transmitted by an access point or base station.
A low-power multi-state vector backscatter modulation technique is presented where quadrature amplitude modulation (QAM) signalling is generated without running a traditional transceiver. Backscatter QAM allows for significant power savings compared to traditional wireless communication schemes. For example, a device presented in this thesis that implements 16-QAM backscatter modulation is capable of streaming data at 96 Mbps with a radio communication efficiency of 15.5 pJ/bit. This is over 100x lower energy per bit than WiFi (IEEE 802.11).
This work could lead to a new class of high-bandwidth sensors or implantables with power consumption far lower than traditional radios.
Item Open Access Wide-Dynamic-Range Continuous-Time Delta-Sigma A/D Converter for Low-Power Energy Scavenging Applications(2011) Aleksanyan, ArnakMany medical, environmental, and industrial control applications rely on wide-dynamic-range sensors and A/D converter systems. For most photo-detector-based applications, the input-current is integrated onto a capacitor, either with a variable time, or a variable capacitor value, followed by a sample-and-hold and a voltage A/D converter. The penalty for achieving wide-dynamic-range with the above approach is power and circuit complexity.
We propose to use the unique properties of current-input continuous-time Delta-Sigma A/D converters to combine the photo-detector current-integration with simultaneous wide-dynamic-range A/D conversion, using programmable reference currents and programmable clock frequencies.
A programmable current-input wide-dynamic-range Delta-Sigma A/D converter is designed and fabricated using MOSIS AMI 1.5 um 5 V CMOS process. The programmable A/D converter test results exhibit a consistent 12-bit resolution over the programmability range of the reference-currents, from 17.2 nA to 4.4 uA. The supply-current varies from 60 uA to 240 uA, whereas the A/D converter sample-rates increase from 4 Samples/s to 1 kSamples/s, achieving an overall system-dynamic-range of 20-bits.
An RF-powered version is designed and fabricated using MOSIS ON 0.5 um 3 V CMOS process. It is designed to work at 128 Samples/s to 11.25 kSamples/s sample-rates, achieving 12-bit resolution with only 128 oversampling ratio. The A/D converter supply-current is designed to range from 10 uA to 70 uA to allow its integration with an RF-power source. The RF-powered version of the programmable Delta-Sigma A/D converter includes an on-chip voltage regulator that generates a stable 3 V DC-voltage, and consumes only 15 uA current.