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Giorgio Ferrari
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2020 – today
- 2024
- [j33]André B. Cunha
, Christin Schuelke
Development of a Smart Wireless Multisensor Platform for an Optogenetic Brain Implant. Sensors 24(2): 575 (2024) - [c47]Emanuele Sacchi, Alexandru Andronie, SeyedMohammad SeyedinNavadeh, Francesco Zanetto, Francesco Morichetti, Andrea Melloni, Marco Sampietro, Giorgio Ferrari:
Free-space optical receiver with real-time self-configuration using a fully integrated CMOS controller. OFC 2024: 1-3 - [c46]SeyedMohammad SeyedinNavadeh, Andres Ivan Martinez Rojas, Alessandro di Tria, Emanuele Sacchi, Francesco Zanetto, Giorgio Ferrari, Marco Sampietro, David A. B. Miller, Andrea Melloni, Francesco Morichetti:
Integrated Photonic Processors for Optical Free-Space Links. OFC 2024: 1-3 - [c45]Francesco Zanetto, Monica Crico, Andres I. Martinez, Fabio Toso, Francesco Morichetti, Andrea Melloni, Giorgio Ferrari, Marco Sampietro:
Breaking the interconnection limit by integrating CMOS electronics on PICs. OFC 2024: 1-3 - [i4]Jodi Dianetti, Giorgio Ferrari, Renyuan Xu:
Exploratory Optimal Stopping: A Singular Control Formulation. CoRR abs/2408.09335 (2024) - 2023
- [j32]Jodi Dianetti
A Unifying Framework for Submodular Mean Field Games. Math. Oper. Res. 48(3): 1679-1710 (2023) - [j31]Salvatore Federico, Giorgio Ferrari, Neofytos Rodosthenous:
Two-Sided Singular Control of an Inventory with Unknown Demand Trend. SIAM J. Control. Optim. 61(5): 3076-3101 (2023) - [c44]Paola Piedimonte, Francesco Damin, Francesco Zanetto, Arianna Adelaide Maurina, Laura Sola, Giorgio Ferrari, Cainã de Oliveira Figares, Marcella Chiari, Marco Sampietro:
Bio-Reconfigurable Differential Impedance Electronic Platform for Multiplex Biomarker Detection. BioCAS 2023: 1-4 - [c43]Francesco Zanetto
6-channel CMOS-based instrument for optical absorption spectroscopy and chemical identification. ISCAS 2023: 1-4 - [c42]SeyedMohammad SeyedinNavadeh, Maziyar Milanizadeh, Francesco Zanetto, Vittorio Grimaldi, Christian De Vita, Giorgio Ferrari, David A. B. Miller, Andrea Melloni, Francesco Morichetti:
Automatic setting of multiple FSO orthogonal communication channels between photonic chips. OFC 2023: 1-3 - [c41]Giulio Gubello
Modular 76-channel instrument for Broadband Raman Spectroscopy. PRIME 2023: 289-292 - [i3]Lubomír Bañas, Giorgio Ferrari, Tsiry Avisoa Randrianasolo:
Numerical approximation of Dynkin games with asymmetric information. CoRR abs/2312.01847 (2023) - 2022
- [j30]Marco Giacometti, Tommaso Pravettoni, Jonathan Barsotti, Francesca Milesi, Cainã de Oliveira Figares
Impedance-Based Rapid Diagnostic Tool for Single Malaria Parasite Detection. IEEE Trans. Biomed. Circuits Syst. 16(6): 1325-1336 (2022) - [c40]Elisabetta Polidori, Giovanni Camisa, Alireza Mesri, Giorgio Ferrari, Cristina Polidori, Michele Mastella
Experimental validation of an analog spiking neural network with STDP learning rule in CMOS technology. MetroXRAINE 2022: 187-192 - [c39]Ioannis Roumpos, Themistoklis Chrysostomidis, Vittorio Grimaldi, Francesco Zanetto, Fabio Toso, Peter De Heyn, Yoojin Ban, J. van Campenhour, Giorgio Ferrari, Marco Sampietro, Francesco Morichetti, Andrea Melloni, Kostantinos Vyrsokinos, Theonitsa Alexoudi, Nikos Pleros, Miltiadis Moralis-Pegios:
Temperature Tolerant On-Chip WDM Silicon Photonic Transmitter and AWGR-based Routing Interconnects. OFC 2022: 1-3 - [c38]Paola Piedimonte, Laura Sola, Marcella Chiari, Giorgio Ferrari, Marco Sampietro:
Differential Impedance Biosensing platform for early diagnosis of viral infections. PRIME 2022: 177-180 - [c37]Michele Castriotta, Alexander Falbo, Luca Orsenigo, Fabio Olivieri
CMOS driving circuit operating down to 77 K for single-photon emitting diode. PRIME 2022: 277-280 - [c36]Vittorio Grimaldi, Francesco Zanetto
Non-invasive light sensor with enhanced sensitivity for photonic integrated circuits. PRIME 2022: 285-288 - [c35]Michele Castriotta, Enrico Prati, Giorgio Ferrari:
Fully-integrated data acquisition system operating at cryogenic temperature for semiconductor qubits. QCE 2022: 786-787 - 2021
- [j29]Giuseppe Sciortino
Four-Channel Differential Lock-in Amplifiers With Autobalancing Network for Stimulated Raman Spectroscopy. IEEE J. Solid State Circuits 56(6): 1859-1870 (2021) - [j28]Lubomír Bañas, Giorgio Ferrari, Tsiry Avisoa Randrianasolo:
Numerical Approximation of the Value of a Stochastic Differential Game with Asymmetric Information. SIAM J. Control. Optim. 59(2): 1109-1135 (2021) - [j27]Salvatore Federico, Giorgio Ferrari, Frank Riedel
On a Class of Infinite-Dimensional Singular Stochastic Control Problems. SIAM J. Control. Optim. 59(2): 1680-1704 (2021) - [c34]Paola Piedimonte, Francesco Zanetto
Digital count of antibodies through differential impedance for high-resolution immunosensing. BioCAS 2021: 1-4 - [c33]Fabio Toso, Francesco Zanetto
Electronics-photonics co-design for robust control of optical devices in dense integrated photonic circuits. CICC 2021: 1-8 - [c32]Maziyar Milanizadeh, Seyed Mohammad Seyedin Navadeh
Multimode Free Space Optical Link Enabled by SiP Integrated Meshes. ECOC 2021: 1-3 - [c31]Matteo Petrini, Maziyar Milanizadeh, Francesco Zanetto
Polarization Transparent Add-Drop Multiplexer with Hitless Tuneability. ECOC 2021: 1-4 - [c30]Alireza Mesri, Marco Sampietro, Giorgio Ferrari:
A Squarewave-Based Multi-Frequency Impedance Analyzer Based on the Heterodyne Architecture. ICECS 2021: 1-5 - 2020
- [j26]Giorgio Ferrari
On the singular control of exchange rates. Ann. Oper. Res. 292(2): 795-832 (2020) - [j25]Emanuele Guglielmi
High-Value Tunable Pseudo-Resistors Design. IEEE J. Solid State Circuits 55(8): 2094-2105 (2020) - [j24]Francesca Milesi, Marco Giacometti, Lorenzo Pietro Coppadoro
On-Chip Selective Capture and Detection of Magnetic Fingerprints of Malaria. Sensors 20(17): 4972 (2020) - [j23]Giorgio Ferrari, Neofytos Rodosthenous
Optimal Control of Debt-to-GDP Ratio in an N-State Regime Switching Economy. SIAM J. Control. Optim. 58(2): 755-786 (2020) - [j22]Jodi Dianetti, Giorgio Ferrari:
Nonzero-Sum Submodular Monotone-Follower Games: Existence and Approximation of Nash Equilibria. SIAM J. Control. Optim. 58(3): 1257-1288 (2020) - [j21]Salvatore Federico
A Singular Stochastic Control Problem with Interconnected Dynamics. SIAM J. Control. Optim. 58(5): 2821-2853 (2020) - [c29]Michele Mastella
Tunneling-based CMOS Floating Gate Synapse for Low Power Spike Timing Dependent Plasticity. AICAS 2020: 213-217 - [c28]Andrea Ragni
High-Speed and Low-Noise Multichannel System for Broadband Coherent Raman Imaging. NEWCAS 2020: 150-153 - [c27]Miltiadis Moralis-Pegios, Francesco Zanetto, Emanuele Guglielmi, Vittorio Grimaldi, Konstantinos Fotiadis, Stelios Pitris, Theoni Alexoudi, Peter De Heyn, Yoojin Ban, Joris Van Campenhout, Douglas Aguiar, Giorgio Ferrari, Marco Sampietro, Andrea Melloni, Nikos Pleros:
Automated Thermal Drift Compensation in WDM-Based Silicon Photonic Multi-Socket Interconnect Systems. OFC 2020: 1-3
2010 – 2019
- 2019
- [j20]Giorgio Ferrari, Torben Koch
On a strategic model of pollution control. Ann. Oper. Res. 275(2): 297-319 (2019) - [j19]Andrea Ragni
Multi-channel lock-in based differential front-end for broadband Raman spectroscopy. Integr. 67: 44-49 (2019) - [j18]Tiziano De Angelis
A Solvable Two-Dimensional Degenerate Singular Stochastic Control Problem with Nonconvex Costs. Math. Oper. Res. 44(2): 512-531 (2019) - [j17]Giorgio Ferrari, Patrick Schuhmann:
An Optimal Dividend Problem with Capital Injections over a Finite Horizon. SIAM J. Control. Optim. 57(4): 2686-2719 (2019) - [i2]Lubomír Bañas, Giorgio Ferrari, Tsiry Avisoa Randrianasolo
Numerical approximation of the value of a stochastic differential game with asymmetric information. CoRR abs/1912.13248 (2019) - 2018
- [j16]Giorgio Ferrari:
On the Optimal Management of Public Debt: a Singular Stochastic Control Problem. SIAM J. Control. Optim. 56(3): 2036-2073 (2018) - [c26]Giovanni Azzellino, Andrea Ragni
Resonant noise-canceling current front-end for high-resolution impedance sensing. I2MTC 2018: 1-6 - [c25]Marco Carminati, Lorenzo Mezzera, Giorgio Ferrari
A Smart Sensing Node for Pervasive Water Quality Monitoring with Anti-Fouling Self-Diagnostics. ISCAS 2018: 1-5 - [c24]Andrea Ragni
Lock-In Based Differential Front-End For Raman Spectroscopy Applications. PRIME 2018: 221-224 - [c23]Alireza Mesri
A Laser Diode-Based Wireless Optogenetic Headstage. PRIME 2018: 257-260 - 2017
- [j15]Tiziano De Angelis, Salvatore Federico
Optimal Boundary Surface for Irreversible Investment with Stochastic Costs. Math. Oper. Res. 42(4): 1135-1161 (2017) - [j14]Enrico Prati
Noise-assisted transmission of spikes in Maeda-Makino artificial neuron arrays. Int. J. Parallel Emergent Distributed Syst. 32(3): 278-286 (2017) - [j13]Marco Carminati
Miniaturized Impedance Flow Cytometer: Design Rules and Integrated Readout. IEEE Trans. Biomed. Circuits Syst. 11(6): 1438-1449 (2017) - [c22]Emanuele Guglielmi, Marco Carminati, Francesco Zanetto
16-Channel modular platform for automatic control and reconfiguration of complex photonic circuits. ISCAS 2017: 1-4 - [i1]Ramin M. Hasani, Giorgio Ferrari, Hideaki Yamamoto, Sho Kono, Koji Ishihara, Soya Fujimori, Takashi Tanii, Enrico Prati:
Control of the Correlation of Spontaneous Neuron Activity in Biological and Noise-activated CMOS Artificial Neural Microcircuits. CoRR abs/1702.07426 (2017) - 2016
- [j12]Pietro Ciccarella, Marco Carminati, Marco Sampietro, Giorgio Ferrari
Multichannel 65 zF rms Resolution CMOS Monolithic Capacitive Sensor for Counting Single Micrometer-Sized Airborne Particles on Chip. IEEE J. Solid State Circuits 51(11): 2545-2553 (2016) - [j11]Pietro Ciccarella
Impedance-Sensing CMOS Chip for Noninvasive Light Detection in Integrated Photonics. IEEE Trans. Circuits Syst. II Express Briefs 63-II(10): 929-933 (2016) - [j10]Marco Lorenzo Valerio Tagliaferri
Modular Printed Circuit Boards for Broadband Characterization of Nanoelectronic Quantum Devices. IEEE Trans. Instrum. Meas. 65(8): 1827-1835 (2016) - [c21]Harald Homulle
CryoCMOS hardware technology a classical infrastructure for a scalable quantum computer. Conf. Computing Frontiers 2016: 282-287 - [c20]Giacomo Gervasoni, Marco Carminati, Giorgio Ferrari
FPGA-based lock-in amplifier with sub-ppm resolution working up to 6 MHz. ICECS 2016: 117-120 - [c19]Pietro Ciccarella, Marco Carminati, Marco Sampietro, Giorgio Ferrari
28.7 CMOS monolithic airborne-particulate-matter detector based on 32 capacitive sensors with a resolution of 65zF rms. ISSCC 2016: 486-488 - [c18]Marco Carminati, Pietro Ciccarella, Giorgio Ferrari, Emanuele Guglielmi, Giovanni Bellotti, Andrea Annoni, Stefano Grillanda, Andrea Melloni, Francesco Morichetti, Marco Sampietro:
Multipoint platform for control and routing of complex silicon photonic circuits with non-invasive probes. OFC 2016: 1-3 - [c17]Stefano Grillanda, Shengmeng Fu, Ruiqiang Ji, Francesco Morichetti, Nicola Peserico, Isaia Belladelli, Marco Carminati, Giorgio Ferrari, Marco Sampietro, Antoine Dentin, Alberto Dede, Antonello Vannucci, Barry Holmes, Charalambos Klitis, Marc Sorel, Andrea Melloni:
Wavelength locking platform for DML-based multichannel transmitter on a silicon chip. OFC 2016: 1-3 - [c16]Francesco Morichetti, Andrea Annoni, Stefano Grillanda, Nicola Peserico, Marco Carminati, Pietro Ciccarella, Giorgio Ferrari, Emanuele Guglielmi, Marc Sorel, Andrea Melloni:
4-Channel all-optical MIMO demultiplexing on a silicon chip. OFC 2016: 1-3 - [c15]Francesco Morichetti, Andrea Annoni, Stefano Grillanda, Nicola Peserico, Daniele Melati, Marco Carminati, Pietro Ciccarella, Giorgio Ferrari, Emanuele Guglielmi, Marco Sampietro, Marc Sorel, Andrea Melloni:
ContactLess integrated photonic probe: Concept, technology and applications. OFC 2016: 1-3 - [c14]Marco Carminati, Pietro Ciccarella, Marco Sampietro, Giorgio Ferrari
Single-Chip CMOS Capacitive Sensor for Ubiquitous Dust Detection and Granulometry with Sub-micrometric Resolution. Sensors 2016: 8-18 - 2015
- [j9]Maria B. Chiarolla, Giorgio Ferrari
Optimal dynamic procurement policies for a storable commodity with Lévy prices and convex holding costs. Eur. J. Oper. Res. 247(3): 847-858 (2015) - [j8]Tiziano De Angelis
A Nonconvex Singular Stochastic Control Problem and its Related Optimal Stopping Boundaries. SIAM J. Control. Optim. 53(3): 1199-1223 (2015) - [c13]Marco Carminati, Giorgio Ferrari
The role of micro-scale current sensing in biomedicine: A unifying view and design guidelines. EMBC 2015: 3201-3204 - [c12]Pietro Ciccarella, Marco Carminati, Giorgio Ferrari
32-Channel low-noise lock-in ASIC for non-invasive light detection in silicon photonics. ESSCIRC 2015: 368-371 - [c11]Marco Carminati
Low-noise instrument for non-invasive monitoring of photonic integrated circuits. I2MTC 2015: 2078-2083 - 2014
- [j7]Davide Bianchi, Giorgio Ferrari
CMOS Impedance Analyzer for Nanosamples Investigation Operating up to 150 MHz With Sub-aF Resolution. IEEE J. Solid State Circuits 49(12): 2748-2757 (2014) - [j6]Maria B. Chiarolla, Giorgio Ferrari
Identifying the Free Boundary of a Stochastic, Irreversible Investment Problem via the Bank-El Karoui Representation Theorem. SIAM J. Control. Optim. 52(2): 1048-1070 (2014) - [c10]Marco Carminati
Towards the impedimetric tracking of single magnetically trailed microparticles. SSD 2014: 1-5 - [c9]Giacomo Gervasoni, Marco Carminati
A 12-channel dual-lock-in platform for magneto-resistive DNA detection with ppm resolution. BioCAS 2014: 316-319 - [c8]Stefano Grillanda
Wavelength tuning, locking and swapping of a silicon photonics microring resonator by transparent light monitor. ECOC 2014: 1-3 - [c7]Giorgio Ferrari
17.4 CMOS impedance analyzer for nanosamples investigation operating up to 150MHz with Sub-aF resolution. ISSCC 2014: 292-293 - 2013
- [j5]Maria B. Chiarolla, Giorgio Ferrari
Generalized Kuhn-Tucker Conditions for N-Firm Stochastic Irreversible Investment under Limited Resources. SIAM J. Control. Optim. 51(5): 3863-3885 (2013) - 2012
- [j4]Marco Vergani, Marco Carminati
Multichannel Bipotentiostat Integrated With a Microfluidic Platform for Electrochemical Real-Time Monitoring of Cell Cultures. IEEE Trans. Biomed. Circuits Syst. 6(5): 498-507 (2012) - [c6]Marco Vergani, Marco Carminati
Compact potentiostat for cellular electrochemical imaging with 54 parallel channels. BioCAS 2012: 136-139 - [c5]Marco Carminati
Low-noise dual-channel current amplifier for DNA sensing with solid-state nanopores. ICECS 2012: 817-820
2000 – 2009
- 2009
- [j3]Giorgio Ferrari
Transimpedance Amplifier for High Sensitivity Current Measurements on Nanodevices. IEEE J. Solid State Circuits 44(5): 1609-1616 (2009) - [c4]Marco Carminati, Giorgio Ferrari, Filippo Guagliardo, Marco Farina, Marco Sampietro:
Low-noise single-chip potentiostat for nano-bio-electrochemistry over a 1MHz bandwidth. ICECS 2009: 952-955 - [c3]Fabio Gozzini, Giorgio Ferrari
An instrument-on-chip for impedance measurements on nanobiosensors with attoFarad resoution. ISSCC 2009: 346-347 - 2008
- [c2]Marco Carminati
High sensitivity potentiostat system for sub-micron bio-sensors impedance measurements. ICECS 2008: 750-753 - 2007
- [j2]Paolo Fantini, Giorgio Ferrari
Low frequency noise and technology induced mechanical stress in MOSFETs. Microelectron. Reliab. 47(8): 1218-1221 (2007) - [c1]Giorgio Ferrari
A Current-Sensitive Front-End Amplifier for Nano-Biosensors with a 2MHz BW. ISSCC 2007: 164-165 - 2003
- [b1]Giorgio Ferrari:
Analizzatore di spettro a correlazione per l'indagine di dispositivi elettronici tramite misure di rumore ad elevatisima sensibilità. Polytechnic University of Milan, Italy, 2003 - 2000
- [j1]Marco Sampietro, Gianfranco Accomando, Luca G. Fasoli, Giorgio Ferrari
High sensitivity noise measurement with a correlation spectrum analyzer. IEEE Trans. Instrum. Meas. 49(4): 820-822 (2000)
Coauthor Index
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last updated on 2024-10-07 21:26 CEST by the dblp team
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