4 Hz modulation energy (Arthur Choi )


Subject: 4 Hz modulation energy
From:    Arthur Choi  <arthurkin_choi(at)HOTMAIL.COM>
Date:    Thu, 24 Mar 2005 15:30:39 +1100

--------------Boundary-00=_3V9UG6G0000000000000 Content-Type: Multipart/Alternative; boundary="------------Boundary-00=_3V9UBHK0000000000000" --------------Boundary-00=_3V9UBHK0000000000000 Content-Type: Text/Plain; charset="big5" Content-Transfer-Encoding: quoted-printable Dear all, =0D =0D Could anybody tell me the method and the calculations on obtaining "4= Hz modulation energy" for a speech signal?=0D =0D regards=0D Arthur --------------Boundary-00=_3V9UBHK0000000000000 Content-Type: Text/HTML; charset="big5" Content-Transfer-Encoding: quoted-printable <HTML><HEAD> <META http-equiv=3DContent-Type content=3D"text/html; charset=3Dbig5"> <META content=3D"IncrediMail 1.0" name=3DGENERATOR> <!--IncrdiXMLRemarkStart> <IncrdiX-Info> <X-FID>BA285063-5BCE-11D4-AF8D-0050DAC67E11</X-FID> <X-FVER>2.0</X-FVER> <X-FIT>Letter</X-FIT> <X-FILE>Letter\rice_fields.imf</X-FILE> <X-FCOL>Elegant Paper</X-FCOL> <X-FCAT>Stationery</X-FCAT> <X-FDIS>Rice Fields</X-FDIS> <X-Extensions>SU1CTDEsNDEsgUmBSTAkkcGNgZmVTY0wNCxNhYUoiU0kOMEoTYGBjYEoJDS= ZnSyFhUksSU1CTDIsMCwsSU1CTDMsMCws</X-Extensions> <X-BG>BDE5BF4A-0EFA-4CCA-9894-036F3878DAAF</X-BG> <X-BGT>repeat</X-BGT> <X-BGC>#eff3f7</X-BGC> <X-BGPX>left</X-BGPX> <X-BGPY>0px</X-BGPY> <X-ASN>ANIM3D00-NONE-0000-0000-000000000000</X-ASN> <X-ASNF>0</X-ASNF> <X-ASH>ANIM3D00-NONE-0000-0000-000000000000</X-ASH> <X-ASHF>1</X-ASHF> <X-AN>6486DDE0-3EFD-11D4-BA3D-0050DAC68030</X-AN> <X-ANF>0</X-ANF> <X-AP>6486DDE0-3EFD-11D4-BA3D-0050DAC68030</X-AP> <X-APF>1</X-APF> <X-AD>C3C52140-4147-11D4-BA3D-0050DAC68030</X-AD> <X-ADF>0</X-ADF> <X-AUTO>X-ASN,X-ASH,X-AN,X-AP,X-AD</X-AUTO> <X-CNT>;</X-CNT> </IncrdiX-Info> <IncrdiXMLRemarkEnd--> </HEAD> <BODY style=3D"BACKGROUND-POSITION: left 0px; FONT-SIZE: 12pt; MARGIN: 0p= x 10px 10px; COLOR: #00005b; BACKGROUND-REPEAT: repeat; FONT-FAMILY: Aria= l" text=3D#00005b bgColor=3D#eff3f7 background=3Dcid:BDE5BF4A-0EFA-4CCA-9= 894-036F3878DAAF scroll=3Dyes SIGCOLOR=3D"0" ORGYPOS=3D"0"> <TABLE id=3DINCREDIMAINTABLE cellSpacing=3D0 cellPadding=3D2 width=3D"100= %" border=3D0> <TBODY> <TR> <TD id=3DINCREDITEXTREGION style=3D"PADDING-RIGHT: 0px; PADDING-LEFT: 0px= ; FONT-SIZE: 12pt; PADDING-BOTTOM: 0px; CURSOR: auto; PADDING-TOP: 0px" v= Align=3Dtop width=3D"100%"> <DIV>Dear all,&nbsp;&nbsp;&nbsp; </DIV> <DIV>&nbsp;</DIV> <DIV>&nbsp;&nbsp;&nbsp; Could anybody tell me the method and the calculat= ions on obtaining "4 Hz modulation energy" for a speech signal?</DIV> <DIV>&nbsp;</DIV> <DIV>regards</DIV> <DIV>Arthur</DIV></TD></TR> <TR> <TD id=3DINCREDIFOOTER width=3D"100%"> <TABLE cellSpacing=3D0 cellPadding=3D0 width=3D"100%"> <TBODY> <TR> <TD width=3D"100%"></TD> <TD id=3DINCREDISOUND vAlign=3Dbottom align=3Dmiddle></TD> <TD id=3DINCREDIANIM vAlign=3Dbottom align=3Dmiddle></TD></TR></TBODY></T= ABLE></TD></TR></TBODY></TABLE><SPAN id=3DIncrediStamp><SPAN ltr??><A hre= f=3D"http://www.incredimail.com/index.asp?id=3D409&amp;lang=3D9"><IMG alt= =3D"" hspace=3D0 src=3D"cid:EF47704F-C705-43A4-BEAA-AF5060C66D6E" align=3D= baseline border=3D0></A></SPAN></SPAN></BODY></HTML> --------------Boundary-00=_3V9UBHK0000000000000-- --------------Boundary-00=_3V9UG6G0000000000000 Content-Type: image/gif; name="IMSTP.gif" Content-Transfer-Encoding: base64 Content-ID: <EF47704F-C705-43A4-BEAA-AF5060C66D6E> R0lGODlhDAJMAMQAAHYdAP/yACLVxP/7nAAA//AHy/7SAPy1AJ5IDPWYAP/93aA0Ad9xAfwMDP/5 eP///7Crm9rQvfejmv3Bav+D7ebh1K1zJv+uNP/6Mc2XAAqDg/tvaNewAL2NPgAAAAAAACH/C05F VFNDQVBFMi4wAwEAAAAh+QQJHgAfACwAAAAADAJMAAAF/+AnjmRpnmiqrmzrvnAsz3Rt33iu73zv /8CgcEgsGo/IpHLJbL480Kh0Sq1ar9isdsvter/gsHhMLpvP6LR6zW6XnfC4fE6v2+/4vH7P7/v/ gIGCg4SFhoeIiYqLjI2Oj5CRkpOUlZaXmJmam5ydnp+goaKjpKWmp6ipqqusd1BFUZKvH7MyBAQi tym6rb2HVCLAwVPDUibCNLW1QcuQs88eu7e4udS8J9fY1NU42b7fM8200cPlJeIk6OHkR+rO5OrX 1tsq3iXZ9rb04PxP7CPK4P0zh0LcK2jpYo2LFbAhO2IAFUZUaKxcM4TFHgq0OHChxnEEPUY0hy4f L3nTuP99sIdv2zSXuE6mVNmvZguDH0Ge65jw2MGfJDcGBagTI8YTAYNKHFpUKLSlTYst1NkzKlUS JufRjMlVG1atK+ellEnTptmCEJEJQzaRotO3BI8yNcozLlykd+mGrKqXatq79/apJPs1X9iXhAkP Bnu28U6fV3GqkGy1r9WRlTXyTHrZJ+e+6tbmHb237IjE+16iaFlNddjCMw07tkmZc1W0kDMz7az7 qm+/gD3nBF23NmneJrIuDvw6OT3Fp58Lnk0d8225pW9jJm43bu+LHT8LxSt+bvGH5tMj37q8+crm LKWzd++ecfWzlDlWZJuRe8aE0TjU1nYCobNMRb9pJ1L/W+MJR6Bdbu3mHEpbxQYTc9FFRyFsGd7n 4YcJgijiiCS6QwhiKKao4oostuiibCTGKOOMNNZo44045qjjjjz26OOPQAYp5JBEFmnkkUgmqeSS TDbp5JNQRinllFRWaeWVWGapZQ8CHJAADAJU8IEAGtjQQAMqFKDmmhS02aaablKgAgIkGGAAAHgC sMCeDDDBwJ4L5JnnCHjW9Oeeghb6AwB9inBooIk6CsCWMSRwwAlhimDpCAIIMKanIwQQwAebYlqm CGeeoMGqchbwAZwNUBBrAW22gMCtdtqZgAJQAOBBBA78icQCDAygwLHIHvvnpB8woCgKCCxA5wvM Nnsr/wKJVmsDA9feKqgPzn5ArLHJIrtsD9WOW64CFnRwrQjaUrqCnZiCGsCXJKhZgqidXlqvCqtq QGYBFbg68Jq0wgDAAQjk6iUABgwQQAQRKDCAsEOoa/EAAzjgMQYY3MtAAviGewICogYQbwqFIlAs sgAoyyi2NbhM7rrcrlwDns4acCzHHX8cssp66iwDs7d2YMHGHbf7wNNP3/qB0fKWQC8JnYqgrwlb T81s1l5jfYABqq7aKZmvvqrm1R+I2gIDXiZgAMN2HnAAxBdcMMAFEUhg8QJCLDAAnhs7MHTKliYg Mb5TmxCtpQaozMLML1vsQNCGYwDAvTTDYPPPl3ucuf+oCXRuA6N29gw0BpGn7CzJdlMdAwJQP2BB AA4EYEHtvE9btQtbg931CTy76nWezuYZ8PIBn61AwGqrDWec09fq+NwJ9ApF3HYfcMEEev8M+A+C Mwp07imTbveui6eA8twGOCA7vAiQyzH66advQALzk4BtzPfLX/721z8VQExUqVtY6w4gKga8rnt3 ywHteHc73fGudhbQU7Sy9azfDY8EKTMBowgFgAzgDACDA4DAzsZCBXTJbK9KgPHW1AA11dBNLKub ngJQNy9B8AAR4BiyxseDBRwLhRwTGQNFxcD1WYyHjCtBoLAnPxbULwJ4wp8FLBAoAYqqgPVTQBa9 SMb/AqZAWgiUGKPGxsBlWeqHZnQf7zTwtC1ekHeCA5oegRZHSqWsbvAKQLcSICqQdetyAFSh8wTg wgAIbFVak+EMbRgrORkwAQywkwLhmChsIUB8RTSW+RbnJQUwcH9zK+UAdGW0BRwAUlZMYQI6sLkA LIADXhqcACM3vzBaLFpk3KXkZiAtO4lqcTw7QCZReC+7GWABc+ujFHcHNTrS0Y4PIJMALpgtBz4x AIP7XQvkNrepCbJ2KBPVBKOGyGM5YIUBEEA8takB46FpTDX0l9tWsEZl3smHY8PT0wAw0KcJDpQ5 OKgYO9ZMVY6tYU5c5f7457hhxnJhuawgB7DHMQsY/xOBvHTfAM6WOwQQMph/DGkMysdBQe0pAxMw ANzYCE2KymABE+hA7bRpO2pa84IWeNjUDpDEuVlUnPMi2wfWCTWUMTVquCPXO13owhUmoJ4joFUF zlQAriZMBa6E3Q/vBAAIFPQBBH1AHpWlAwb8jKFyi6gtu0XXhhFRBCgzY/0AEFRscWBwd8tT/UAK UgKeTAFPEwAE5InSAbIyBm5dAMUo5oGAUayliXrmDBgggadus6dPCxhQLQU4iEnMmV9E6grA9lQP RK12roXq5X4mMAN06qqQJEENX1XDrtIqTiKE2xu7J9O0mvUBHjCrnhYQVWMN4K40OGgATZpK9gky AP8MeAAdmzq2BEhLWiM76pzEKFC0ZvBuT5MABJI5Nh7mynf+y2Y2BRABAbSuse61E3xZIDhbzlFg Bp1sZVc1WVcaFgY4lcAEnvqAhlGTp71L3KQw2l01qlYFYFtA7ejo2nVyOGqRm+3zsrnC3GrNhvZ8 Ew5PAE0f5kqTx9WeB3yVvssZq1El4JkL3Ho/B9a1Ww1EJ/wil0Qe6lWUodWAArBVutC6Fk/OjBz8 bDqC/wnKA2HC7x+7G0e3+veOD6iAhqsJ4DAbWLMwYEAERvZKIduJmne0AMnkNj481c3Cv8tUCgRG qjEnFsDrhLBJD+XW5wnsqlfNFw0t2QIAkNNSPBT/VXJ3N+NK0zhlIBPiAHyHJ+aKkr/OvdjCgrzd BqfPx8wdcnEH5YJPDu7PAz3Ag7dLYSnnKl6fJOiq0AoAxmr5xUdWgC0rcMcKiJnYF6wARh/b6gkk b2a3Cmqu4HxBk76RynlioDSfBLYTdC27GzZouKP2MD0VWgMHeOSpuNbV3fKzbh+V9AMgUGlL17LG QpzWqDEqXhZvbJlGxW5TUQrvO8kgjBPAwO7IhFbY0Y7hDUctdiNH5TDSrsx4sq+W3XsvMG7slcYO ecgXtgCRj9y9YzN4q0c2gQk4GoIfNYAFnnqr9aV8ZZvbNpOEZ7wS6It/f7rgArxb7TnXUpmGJlOZ /7qtaODmcMjpS66le4UnL+YbXlwOLH83ljIDNxCYZGQAyjV5cAU4YAIMS0CsYcc/qL3cbmIPQAOk XK1POmDhn+X1vRtrTJWvwNWnBRSioGw3wSOKiUOOIwIq0PI7DVfi7u1WUNkYZZz7/UrBA9UHRbg/ P6s1cZ4fOiH5l7LZagC3nxKB3bodJ+txHurHrLevEkU0Qc1W30atuhhXYESGdv2Vt2IuGV859su3 2uypxBMCfkiyPM3Zbg1wYPTJjlezM4x3B9y4UY0PLctRXplwR+1M4+3Mm7/gk41/uapzBdKxEpf7 C9P5kTYvghCW4G4jI5ngH7//xJEeZA5gMWZzKv+psnqgIgICQH+EUnApMwBTx0EbsAESMIENAAAB qG8KxGaCxHtmhz9Esz8H4AAN82K6InwFt212VzfPl0rrM2diNTbRF31GVmXW13axlnL3FUx2M4NW 1IEB4CUOFH73pUxBCHeZlHjnZ3YxRSyq5lgkaGvmRwI5d2H1t08kcDcu6II/5EP+p0zChzsBCD2o ck+YooDw0kP35YC+MmPZsgENEIEboAASYIGbdobL52isdkZBkz6bw0YiuIXEsmVR6DkM1UPut4XO 5DEMMH1+Vz9o13x4AjvxhlI7yH0n0zEpB0Fwk4MyZYTjV3nnt4eBgoMEx36pRH0LKH9XMiofcDf/ cSNcAMV8YsU/X4g7z5NuOwAx7xd79iYoZ/KLETiHF4h1ZLU5n3ZGPpgyAEBdDDR4y5VyKDeISegA UgZzL4aIOHgxDcCDS1WDWRhlOehFqcSN4+UxQOhAm7hLM1WJp2iJ3ecxtrReS6R97agtfaiKWeKK 3PN+DtM9EgYBtRiAKrRuKnA1CggxLNg6z9WLvvKLDnkmFrhkhPIw3RNOyAiPfKiMQJNSS5SQ7mhA ZpdSLyaSPcQ/UNZ31RIz1NiCYjWJ4jiOH+k/HWiI7SWO6EhIHql4PihZ60VOT9iPqfZ+KUmOVIgC CKl/kniNXOgsEBABATk4BFmQSnWQhmhMq0R1/774i4niMQbAafFnKSgkO9CEkV8UWJszkjvYfqAY AxDjgZHGd/vzbGeZkovIgmznLG65SzAJRvGTOyRYikp5AMKmeH1pSxQDkHvyeD/kLJkklF6zShFU lCdGTv5yQMrUT4joXXvSlE5ZY2KkVC2ANgb0fdC4kGyIJ784Y88XghcDXxDDP8vXbyQwLvgDUXsn QCFDk9F0NMWSl43FOoE1jpE5NQ7pgs6yAGSZPkNjiD8IRr2pPz8Zb7lpl4N5fs8pWRRTARAAkJgF TY1ZfnmCTJJZApRJKDyUSZDCQQuwnRVQYKVXRSjAdAgIKnomhXZmc9DIP6fpARCphXbjMdA1VP+Q 1j/I6QAm2Zz4VZI7GKCtlpxw+TAQtYOuqZ445aCOBUEb6AIFml/YGGVqSVq5w6BnBI/YiWzGFgHG tp3biURTtqCOdloxOZ5T4zAcU1YqeqLG9jTt2ZmuQzXyWQJMV3WitHwtyUuniSgZ8IJLZDJS2F4F xCjHhKDBNJ0tyEbyt0YuKY4Mc5LENZyoIgEbsIiiY6GFpJbgSS1ix4KGJ3hsloncs3wO8EpoKiqS RWzHlWxItJKSiIWLE6OqJZ99GDE1imwXZFbtWYvVsnlWyE+nNTbJs5oUd5oVOGeS5gEIxKCu1EG8 FzFSWopV2ow20DB2Fp0quHwKykD79QEPuXH/0fhGGeoCehJNeLJHReWFe/Kp3hWnfQRNdBoBTxMB d/oAvopEkClWtiQ3P7ibMoo1B/gqCiQ3fCSstdOUv/qFxZUqisqKjHovkBgxjNKSted8+klQFuAB xXUy0jQzVQeYn6qsNIA6fCU3CZBBnQQ3K8k97qpbZ0KP1QU5XspPWEisXRcttdh1b2cpEEVlk5NJ hjmt2zmsHVOsbxRNXqJDfyome9asauJoqBStwLqdtcOjhpUqLsA2TQqJ4AQxYrSaEpMBneZosfVk ByZFOsex4QiddimJCvuuCeAAHIAnFkCrY9qvXMYyyBpMgamzcdSH/MN+0VI/Ivi0zKkyj8W0/0tL TpJ1R3k0ACzJZcv2r1Xzo1nVczmGk4rDMZ4HNU5pTDZlhiZgsgvYPT9olj/on6uUKAP1mkazjDzb d4VliFrYcTpgWno0t+CoKyRDcfNjs/EWmHGDrDtrQDxUbt6FADa2J6JyOd9FqXpLjEIFq1iLoidK m1wbuDb1LUjFc95GtmWrK0DzJ6J7qLmys/zCKc3aaDk5NZRpt4I0e0dpNC5zOj7Zj/64gjObAwj5 hPwoiYI7OcNLvF2ruK0mWPxDiy7FRAx0PlMETke1jJgUuUabQDyjR1rIbBeWeSc2A46Gk3r0bEfY fCYgKhibelU4OdjzbPBCMpObhRuJuHvrp//8lLgs+LjMC7/o4pOyyLzHG8DQS8DttcAsw3WamSie NrdGdTHKaMCEojjoc7WEpEdxWr7cio9QooD2pzAIvEdQlHG3awLCs6g5lL3HqCfP+5PetbfNezpD R6qzGyhA4L1P+EdQZDqwSl1/iUBDbEYLIzECRKuGi1oGKpfZwsTARi07zMOdR8JacsL6ioBReTzP a5Jf08JWM5Uka78Ta4/qR4Je4sPQ0py5OHQ46DAmSQRAbMNEzJZG/ISl00dv16FjRcdLBMiymK5y rLx1vKwzQLJiCy/ZIgNsc8b0Szyom2OYJbmfm4uXfASYpcXHw0EzYGWd3MnaNsqCkqqwuskkirzK rNzKrvzKsBzLsjzLtFzLtnzLuJzLurzLvNzLvvzLKRACACH5BAUeAB8ALAIAAgAHAkIAAAX/oCeO ZGmeaKqubOu+cCzPdG3feK7vfO//t49wSCwaj8ikcslsOp/QqHRKrVqv2Kx2y+16v+CweEwum8/o tHrNbrvf8Lh8Tq/b7/i8fs/v+/+AgYKDhIWGh4iJiouMjY6PkJGSk5SVlpeYmZqbnJ2en6CbImUj kaMfp1IEBEKrSa6hsZcmQrS1JbckRrZUqalhv4+nwx6vq6ytyLBHy8zIyVjNstNkwajFt9lF1kTc U97A2JXESMvKz0rSRc3qqujU8GDWvtjz4kf219q59br0/+JwDdHVjSBBfcHI8RvYL5s9evoiLtSm cN07aB/MHcOojt2zYx9ZwQI5pF28k1ny/1G8tw8fy2vFSimsSDPizIZIINo8uLLnTn4sb8YcpfKm s6MZz5VMytSIR47nNo5UirLqFlu8sAosaBCnUYkVfX51ydDnLq9ozW5L+xOo2JdNLUK1aBIkyaZT ieSNa7VvlXy/VOZ8+XVs2LY0uek8zDUgW8ZAH0tWW/IiXqqV66KbetdjZ8t+Qzcp6visEtJv9x0u HJRw6bYuF08muzY1Yrh6Le+V5qrdU74Yg4se/td1WYnHB5u+bbYm69rQmQ+WbXs5KtvPkedeejm4 SMyVt8cFb0448fPKoyMUyIth1+al3IOND/M1McX3DoLTzpM97vrHJRbfWE5tNFcyewH3W/9SGtEV EnoQRojFfhJWaOGFXFAYiF0cdujhhyCGKKJJGJZo4okopqjiiiy26OKLMMYo44w01mjjjTjmqOOO PPbo449ABinkkEQWaeSRSCap5JJMNunkk0gmcEATAlTAQQJLCCAAEwV06SUFYILZZZgUKIEAEQYY AMCaACzgJgNtMODmAmyyeR4DAAwhp5t1rgkGAHAKsSedfQqaJ5RqCLCmllsK4acUGkRaZgEfjNkA BZcWAGYTCHSaZpoJKCACAB5E4ICcaSzAwAAKtNoqnoDS+aeenSLQ56FSMFBrp3WOsSaeAbDqKgau KiDnmrJmgauqwhZrQQe1OoooGr9qaQT/rE9EqoEAGhRQAaVCeDkmFAAcgMCnByQAgAEDBBBBBAoM gCoZzLY6QAIMJJCAAwbgaUACyW7hJwKrugrAq4Da6sSZBDdbrLEKfwFomsA6YDG/DmCgMZ76HnAA rlUc2mkHFsQ7wAAOPPvAyit3+gHI01rRZRKAZsmxEtoyqkGlCXhJBQPpJmCAuWl6vO4FFwxwQQQS xLtAF48KsUCzAUiZQLtCp7nuvzBbkXDB8TqAssUaA1B1xEqsKSzKY2eMQQBnd33FunBTXK4BcB/g 9sdSHqCm3FMgwPIDFgTgQAAWDK74mTFnMXOalYKb566OrsmrrWtqq3nOWiqgbeQ9f0nm/5hhHnFu uqOKELTHB1wwQdL2Pq1FzUNMbe+9HoeKtd9+Fw24FAAgsDbKcBdvfABcmzmA2sQfb3zyAhuAQN3t ThyA3hjw7TGov0MhuOKFI6744BbAvAAChN7auLVHCAD5zJMPbmsGAXzfcryZM6q/AAoIcECk4arU Bw7gpQZ0yYClQ8LWPrYA5A0tXbfCXKtk573zMU5aQ8DXAUx2gOulK17I05fQevexLAgvAms6HNws YAE6OQ9ugBNeq9D3whp2TwrnwluwqvYrvX1sdxQroRXstzINrIyF4wPfsk7GxCae7IZFmpmWAtC+ nRWBiC2r3/gQYC8AbKtz/BNAALYFQP8BzixyBWjApcqUNnxpjXdGA8DK5PgAOh7Mad5zAOv8RLsP WE0BHZTeA3UHqo59amhQXILw1pSADpgtAAvgQLqW5zy8dU14rEIZAhJQw+NZUgvpuxWb3JSBCfSL hEBLJBIWkDiWGdGISHwAtwQwPguoq3J1YgADQBgsVQbpjNszgBHYJwQseqBlgztmy4TlgC8GQIxa IuMQGjBNcBEzbUA7AAPUlK44QmCO4HyA7fC4MD0OLQB5wlXfdOe3031wAIWU0iGhF7jl5W4A4ePA 0K6GzzQVz58gEx4tBaDCTnryk1eY2gLe9S4PaOtdorzVLaWwgAl0YHCzJFwrX1lLCBr/oVwnQ14H fTkkKX0AckW45gIGZ8Rj2q+lLRNbq5rZv/59MQFWjFyZ1JhGA2pqCQtYHevMRcdvPsAD32zTAsQm rEBx6nr/QtsH3Kk75O3qqptkXd3SRMEoLNICROWAPeskvK1uFXoy1EAFImDQF35qolVgACSTyLKF NvSh71oAV6fAAAlgkZYaLWKkaimlrjqKXR5EaMy4JYTiGQFgGN3WA+yX0cni600D2JYBtITTMkbO gJXyKQLJ9FGg9Y11ajJq6jxAquIxlZxNeCQ6ieCp3IFwAfhyZcs02MG6+Q2u3lMAm+ZYvo+tTAIQ 6KHfHJgmxnGxf7KEQFsP2lwrTG2u/3StwEqzG1R6OqGiEpgAFidrgFZWVn5W61q5tnc1khaJfY69 luKMKE6WsgwBEGwTA4w4S27ldAhpBNcaNbWpI+i1m4dEauJYy+DWGu+1Tn1ZHz+6pikNAau78hgD Bofbjj2vd4adatSMIEM63hcACcBihXsnUq6ltQKydN90P+zdKOwSkjAeXwW0m2PFVWC9e4UCAyKQ rwNst2WfamUSbakvA4T4ZSRcXuOaoK82jQ+3R76vCAEgNm1GSgA4xekQPPZZNsY2a1JCHtyOCQEG u1m2AdDYyeKFuQayqnt3Y9zUNlxEcT5Qm7pCn6qW+8/eARcBFput6fDHUg2US8kPiP/Uepd7yFs9 IAIynvFZ1UQFGQ7AyDsOdajLtQBRj7rFNTbTBGCVsE6BNcl0tew65VYuNbt3WijOMm7TpWt98dBw wtLA//w7ZguL1oCNolnR/Fk8pDZ4VGty3mtrvV5FK3u2B7sAn8VJwqHmrk063GrvcIU+/Cr2wqya AAaUzK2OUZa1fdOhP9UVPDZxi9manvetp2oyPc6JTys28r9dCNVxP4FgCZjABFA8VGaXF4udyp3B j2A2rT0JpU2YEqAuO6fTCtxNHasy3GT6Zc8KwVo8JfCmqkTxZYd7AG9ucLRvdTJ1/bZcI1bgSHeJ tD0FE11WUxe+njc0ixezxQ64pAL/HDABcyVgZQLwQMjp2G7UHhJ5AJhABSaQ9AqHe8b+5DQOOfjn bGYTb2cP9/Ymzqmtm5LhDf+n9GoFVjiyvQjrEmKT3CdMJ2hcX/kSobe7GXRtNnDkrNJAZwFcgGuq PEzJJsIC8Q1zUpGKtX3awAYkwPkGrEtd54y2cJlQa3m9Tp5yBzrAtkd0ttNpn0kn8dIfaDlvV5mR HSP0OYWn8A50QOEV1rRvsR64sF0PX2Yn9PV0mU1Au9yXXFS4muTZu6s70Nt/NjreEQklxiIB40L4 WAZEmPvqDzL36mqgxhwQr5IzPmQuL17loZ35Bmh+AwqQQLno7bci1y+2sZJweHN1/4fEa0X3dc9H BEF1PnLDRfyyT4Y0VORXfjpkLrw3ARO4cCw2Yx5DfGNnTn+mTcqHPGanS8F0d4q0dKakKgf4dcw1 T9enfUOQd/v2I9eEJn03ZutFgQOILhIIABBweIbDfp8DBWf0UUWjfDD3Zn2iRmqkefoHQdLDN3bi BAAwALtWdOaHSHr1KZ4UTDBDbaZDPEmIfYNndXDjThBIfj/HgYG0b8JjMenCfEDjgiQ4VL6FgsqT aHRSfQZFgGC4fXrXfZF3hENARYf1QB22hawjJXgCAREghIbjOf8TBYYoedmnQ1goc3XihJ7oeRDk N2wSLKMXW0snJ2cocBt4UIGId/8jJXv8IlJW54ODJ2/4ZUjxFG926FYdKHZetXQPGHduRYfXp4dJ 4ICHswDJ1Vv59kAyaDbAxSTxVQSXGEwvgzfaBCipqC9zAomR+GDCZXI3SC5lqIkGwImk4ol9EjS2 EooeI2VNsAAKUDQAp1RA0y6dlInlto/5Ym0zuHSp54WbJpAixQANYILV13D4lo8P5IG/mGgwyJBh Z3XQB4yQFAHJlTXzVIBGJotsV3E12CPTqAQmBTl00y9OFlFtAgEQsFZ59WDLsy0VMAQ3eInKlonB som34oQAMH6Cpy+Yoz1XqEp6BYLy10R/mInsAk+IdT20ZgAFVTfCJ1JOuCrlN4v/05WEDuk9UBmV U1mGCuCPitSVF4mRHZeK2bhNFClh8DSIU2ZSS3CSafJELMmSOxYBO7YyLimJ7JcnxFST4EJ6dsdi 90J/AOCEUid4uaMr16gu+CWWScAsh9OLBOk8b1OGvIM56NMrFLcqXjldb1OMfYKL1vdCoVmGThk4 nkl0G4lvl/lnoQKZx7iadoWXLBlKfaJXarl2bII1Idk4ZrM9TAQAPaY437RWQmgxMKNGWNBAbCJP OmR5a+IBaoRiFMhrM9hNshmZiTaVxdg3kIRD3emdRZMADSABG2CQgeedxdiBF0RREImZtShvg2Rk yQgFS5WM75Jjd7ljdZlcJ1N0/+BJJ1cDVb8ZMwvkN8N5aYMDiSvzjcaDJ0XAnDgYBdF2Z+aGNwmA eUrVk7nnWxLqKMvlXoAyla+ZO9R3ayXqhkLznZ/YYZp2miHIfVRQon82cP9WZN3mbj70ZAokVxcJ Y0alY1coNhDIOyiGNb44ZdQYmEigKB6koE90aXU5OBBaPABgk4foQEQwjpLXLtsDKy2KTmzieSK0 Zh4gUl0VVDn3XbvIkCjagT7KBOcCdilGfUFjntXpa19Znx30nsBzYL3pRO0yNIMSp7ymRySlV3Cz UA86pAx6hQEqVJDUokjKpEfwOMJkiFVyN7nHRFnGMldKglnqpEUAN8MUeXiHNf+3xy4TgwESpS6s RTge0C8BFZLWk5VJmHs0Cjzb1JpJyDW/soZV5ijb1Iznd6k1SoVMVDzn4yYvRKASdzrRiE1446gs U5cRUEdsc6RImi6+w6Re+gF8FzlduiUo9i8dw0Rygpd3KYmplgTeJ5i310sGIFwH0C4ZgCw9qUzH 9HkgEzA1mjUS2YiGVK3k0mQJUD5kxSufci4HCzLpmpRlGLEhc3xbgzflpknlhproxD0vg7FPkK5O tq1XxkQoKk/8p6zTIkWqSpP/VQQmyUnqyk8nw2py5YUIK68vq0B/5kFsoqPw1CdzBLB4B6hTQLJq 9oKwKXg8hAVrwkKEejHoAir/GqpeGhluHJmyV3ux+8RI58NU0Apsz3qmRgtlXzuyWbNQoRaJnvlp bPi0EtamT6KlKdWzJ2UAe5qL+YqUhzRRM4Oq5Ppfl0ihPkuRDMBkn1o/0gmytBVhXpO18smGjgu1 V4OZBSh4XUtxkju5hiS3OMQmm4RibVInh9eBTOQAr7dDErtJ+eJLJIuzTUS58YqpTOB4Tsqc1umR vGpocBW4iGgEBSC4QsCc84qJc8gmhRN0ItSshRSGSzo3TRaCE7hcxSowGml7mhtCeJa9Eri9tUt6 JlM19YgsO7R2wQKk6HS9M3g1KgS7vtZEekS5VbOztguzjUW8RGC3L9O580RvuklguESQN6l6uDkp XNMLrP8isCFrv0mLWwr8VgysLJu0kf8UQlKlQBUckWoWVTUIUi9EqFHKeg6ALyp5hZsGuxAcwQt8 oHvXKCM5soz0v1UYwNRkBEVjof+yPaQLnZk7wdPjlrOThfOUX2IQPP7rweSywRuZYr8Jd2iJfUDX W1GsvSRKxJlLt/e7v6Z6BHC5BFqjPlbAcsDDmXMrShQnsn+ikmZwwjXKxliAOSc8xyM1x2T1xhG1 xUcQAgA7 --------------Boundary-00=_3V9UG6G0000000000000 Content-Type: Image/jpeg; name="BackGrnd.jpg" Content-ID: <BDE5BF4A-0EFA-4CCA-9894-036F3878DAAF> Content-Transfer-Encoding: base64 /9j/4AAQSkZJRgABAgAAZABkAAD/7AARRHVja3kAAQAEAAAAHgAA/+4AIUFkb2JlAGTAAAAAAQMA EAMCAwYAAAHbAAAC1gAABZX/2wCEABALCwsMCxAMDBAXDw0PFxsUEBAUGx8XFxcXFx8eFxoaGhoX Hh4jJSclIx4vLzMzLy9AQEBAQEBAQEBAQEBAQEABEQ8PERMRFRISFRQRFBEUGhQWFhQaJhoaHBoa JjAjHh4eHiMwKy4nJycuKzU1MDA1NUBAP0BAQEBAQEBAQEBAQP/CABEIAGUAcwMBIgACEQEDEQH/ xACAAAEBAQEAAAAAAAAAAAAAAAAAAQIGAQEBAAAAAAAAAAAAAAAAAAAAARABAAICAwEAAgMAAAAA AAAAAQARIQIxQRIiQDIQMFARAAICAgIBBAIDAQEAAAAAAAERACExQVFhcYGRobECEsHhMtHxEgEA AAAAAAAAAAAAAAAAAABQ/9oADAMBAAIRAxEAAADtRZYE1ASghQFgUZoCkKSwLmhcllAEqkSkqFAl hUomoAS3IoJqFlDNpFEAQFE1AIVYAWIVKAJRNZpYCwVmmshKACA0CBAUCBYGwf/aAAgBAgABBQD8 B/yP/9oACAEDAAEFAPz6/or8H//aAAgBAQABBQC2+ZeHjbD+saX6hwXeDW1Rg4xLLTa+m7ZiIEsI 1MTiHP1dYpvFADiFM1/X6nq9byuwdPPz5oFofWlEMQ9ULKrWq2ppG9Y2J6INQma9lVTRdlUKgHzX XSEECw1SYu5WsGoJPkisZYpx31GvXZQ/JM3VwShzVTsp1EZbBI8LcaUSih86+s2Zl4Wp6+lAZnVs Dkjdku5m+lJTdXDG2SHM9M2wKX1YxsaZTTwmoVrYnqsMrM652yjs01K0mtbGAz6Y5dpfqNz06qpq 5QNjiIjiZtbhtceNuf0jyeqGgu6rXMvI4omPWbPMYzEfMI+axHnFvOP4/9oACAECAgY/AGP/2gAI AQMCBj8AY//aAAgBAQEGPwB72Yucb1BfIhFEaeZ+xRXFQELN+HEUQdjU0Xn4g9gRCQcpw1yajGYs P/kFvUzvjUBWrIMFHI2OJQNEAjiEEFdTmfG/MTHq5RFOnpTV3kzCBx7x4YOD1AV5uYJvnqMA0hep jfwpYCwC4Bx3q55zeZRBCw9TkoIuHw78RdczSNH2mgqcLpRC+RASAkA3B13mcYd5mR84c/yOx4lW tRAZ6mGDhiP9WgXVyhWA+xDgMOWGMsTg/wBTz8SjjXrP8hHIlX1MZ6mDzgc/cIV/iyN1GBR0MQMK jnEzvvMz8mUkErKlfqU63iV+IKNH7mNZBLFQEpEDeDOV32IVn8WR4caoywqI2p695mbZzNUQIcKf k0bo+0NpCqn7CiQiNGXkdQen1DpjGeZ7WNw3pK+I93maCPc16+Zkf6XxMCsFwAkaiIB57vc/IAhZ /HqZBBbB0ZokAEOGxsYqBgPp8agQBu4VSMJdqx6SwDsGBrTmAR93uZGX6KePowEADAIjoX8gw459 CICaW/MLGvodQfkDW71zBxRHtB3j3jC4PMIYoAgKNfPMCQNN7jCzvlzXPopzhQvNZY3CRya9ZrEF fRE0iCB5mscZuVYfKmAi94uE3Q8qfytQ7xD0svmFcmaxNPI8iMjh3pmF2HbzqeUi+YkiD/MrOl5L mbwPuWVfmXpv3hDH8qAjPpiZHXkRnSd6ZhB53mejzKV6US0K9TCCLyCeIhtETX5MsHBGJkD/ANiF kMCE2qGoCdZ8Q8AMGpYFqEhdhRIYH3CF3d1M/Mexma+4CwdQ2Ddcx0exAlmj04QUQd8QWLB/iB5G xmEg5TENVZqPYzFV8eHAy9T/AEc8a4n3Ov6g/VwvE6lpQ4VNysXzhS8esOO8w/rlF/rypjV3B5H1 Knr8T//Z --------------Boundary-00=_3V9UG6G0000000000000--


This message came from the mail archive
http://www.auditory.org/postings/2005/
maintained by:
DAn Ellis <dpwe@ee.columbia.edu>
Electrical Engineering Dept., Columbia University