Commit f6c529e54df51ff5eef6dbeb34a5b2f1e9b37c02
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cover letter TUFFC
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cover.tex
| 1 | +\documentclass[10pt,stdletter,dateno,sigleft]{newlfm} | |
| 2 | + | |
| 3 | +\newlfmP{sigsize=50pt} % Slightly decrease the height of the signature field | |
| 4 | +\newlfmP{addrfromphone} % Print a phone number under the sender's address | |
| 5 | +\newlfmP{addrfromemail} % Print an email address under the sender's address | |
| 6 | +\PhrPhone{Phone} % Customize the "Telephone" text | |
| 7 | +\PhrEmail{Email} % Customize the "E-mail" text | |
| 8 | + | |
| 9 | +%---------------------------------------------------------------------------------------- | |
| 10 | +% YOUR NAME AND CONTACT INFORMATION | |
| 11 | +%---------------------------------------------------------------------------------------- | |
| 12 | + | |
| 13 | +\namefrom{A. Hugeat} % Name | |
| 14 | + | |
| 15 | +\addrfrom{ | |
| 16 | +\today\\[12pt] % Date | |
| 17 | +Arthur Hugeat\\ | |
| 18 | +FEMTO-ST/Time \& Frequency\\ | |
| 19 | +15 B avenue des Montboucons\\ | |
| 20 | +F-25030 Besan\c con Cedex, France | |
| 21 | +} | |
| 22 | + | |
| 23 | +\phonefrom{+33-381402884} | |
| 24 | + | |
| 25 | +\emailfrom{\tt arthur.hugeat@femto-st.fr} | |
| 26 | + | |
| 27 | +\greetto{Sir, madam,} | |
| 28 | +\closeline{Yours sincerely,} | |
| 29 | + | |
| 30 | +\nameto{} % Addressee of the letter above the to address | |
| 31 | + | |
| 32 | +\addrto{ | |
| 33 | +To: editor of IEEE Transactions on Ultrasonics, Ferroelectrics, and Frequency Control (T-UFFC)} | |
| 34 | + | |
| 35 | +\begin{document} | |
| 36 | +\begin{newlfm} | |
| 37 | + | |
| 38 | +Please find a manuscript we wish to submit for publication as a full article | |
| 39 | +in Transactions on Ultrasonics, Ferroelectrics, and Frequency Control, entitled | |
| 40 | +\begin{center} | |
| 41 | +{\bf Filter optimization for real time digital processing of radiofrequency signals: application | |
| 42 | +to oscillator metrology} \\ | |
| 43 | +by A. Hugeat, J. Bernard, G. Goavec-M\'erou, P.-Y. Bourgeois, and J.-M. Friedt | |
| 44 | +\\ | |
| 45 | +\end{center} | |
| 46 | + | |
| 47 | +Based on the current trend of implementing oscillator characterization circuits as | |
| 48 | +digital electronics based on the concept of software defined radio, we aim at demonstrating | |
| 49 | +in this paper optimal strategies for designing and scheduling filters in Field Programmable | |
| 50 | +Gate Arrays used to acquire and process radiofrequency signals. The complete abstract is | |
| 51 | + | |
| 52 | +\begin{center} | |
| 53 | +\parbox{0.8\linewidth}{ | |
| 54 | +Software Defined Radio (SDR) provides stability, flexibility and reconfigurability to | |
| 55 | +radiofrequency signal processing. Applied to oscillator characterization in the context | |
| 56 | +of ultrastable clocks, stringent filtering requirements are defined by spurious signal or | |
| 57 | +noise rejection needs. Since real time radiofrequency processing must be performed in a | |
| 58 | +Field Programmable Array to meet timing constraints, we investigate optimization strategies | |
| 59 | +to design filters meeting rejection characteristics while limiting the hardware resources | |
| 60 | +required and keeping timing constraints within the targeted measurement bandwidths. The | |
| 61 | +presented technique is applicable to scheduling any sequence of processing blocks characterized | |
| 62 | +by a throughput, resource occupation and performance tabulated as a function of configuration | |
| 63 | +characateristics, as is the case for filters with their coefficients and resolution yielding | |
| 64 | +rejection and number of multipliers. | |
| 65 | +} | |
| 66 | +\end{center} | |
| 67 | + | |
| 68 | +%\hfill Yours sincerely, Arthur Hugeat | |
| 69 | + | |
| 70 | +%\hfill\includegraphics[width=5cm]{} | |
| 71 | +\end{newlfm} | |
| 72 | +\end{document} |