wneuper/isa: doc-isac/jrocnik/final/jrocnik_present1.tex@f8845fc8f38d (annotated)

neuper@42074	1
neuper@42074	2	\documentclass{beamer}
neuper@42074	3
neuper@42074	4
neuper@42074	5	\mode<presentation>
neuper@42074	6	{
neuper@42074	7	\usetheme{Hannover}
neuper@42074	8	\setbeamercovered{transparent}
neuper@42074	9	}
neuper@42074	10
neuper@42074	11	\usepackage[english]{babel}
neuper@42074	12	\usepackage[utf8]{inputenc}
neuper@42074	13	\usepackage{times}
neuper@42074	14	\usepackage[T1]{fontenc}
neuper@42074	15
neuper@42074	16	\def\isac{${\cal I}\mkern-2mu{\cal S}\mkern-5mu{\cal AC}$}
neuper@42074	17	\def\sisac{{\footnotesize${\cal I}\mkern-2mu{\cal S}\mkern-5mu{\cal AC}$}}
neuper@42074	18
jan@42163	19	\title[SPSC in \isac] % (optional, use only with long paper titles)
jan@42163	20	{Interactive Course Material\\ for Signal Processing\\ based on Isabelle/\isac}
neuper@42074	21
jan@42163	22	\subtitle{Baccalaureate Thesis}
neuper@42074	23
jan@42175	24	\author[Ro\v{c}nik]
jan@42175	25	{Jan Rocnik}
neuper@42074	26
neuper@42074	27	\institute % (optional, but mostly needed)
neuper@42074	28	{
neuper@42074	29	Technische Universit\"at Graz\\
neuper@42074	30	Institut f\"ur TODO
neuper@42074	31	}
neuper@42074	32
neuper@42074	33	% If you have a file called "university-logo-filename.xxx", where xxx
neuper@42074	34	% is a graphic format that can be processed by latex or pdflatex,
neuper@42074	35	% resp., then you can add a logo as follows:
neuper@42074	36
neuper@42074	37	% \pgfdeclareimage[height=0.5cm]{university-logo}{university-logo-filename}
neuper@42074	38	% \logo{\pgfuseimage{university-logo}}
neuper@42074	39
neuper@42074	40
neuper@42074	41
neuper@42074	42	% Delete this, if you do not want the table of contents to pop up at
neuper@42074	43	% the beginning of each subsection:
neuper@42074	44	\AtBeginSubsection[]
neuper@42074	45	{
neuper@42074	46	\begin{frame}<beamer>{Outline}
neuper@42074	47	\tableofcontents[currentsection,currentsubsection]
neuper@42074	48	\end{frame}
neuper@42074	49	}
neuper@42074	50
neuper@42074	51	\begin{document}
neuper@42074	52
neuper@42122	53	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	54	%% Title Page %%
neuper@42122	55	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	56
neuper@42074	57	\begin{frame}
neuper@42074	58	\titlepage
neuper@42074	59	\end{frame}
neuper@42074	60
neuper@42122	61	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	62	%% Table of Contents %%
neuper@42122	63	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	64
neuper@42074	65	\begin{frame}{Outline}
neuper@42074	66	\tableofcontents
neuper@42074	67	% You might wish to add the option [pausesections]
neuper@42074	68	\end{frame}
neuper@42074	69
neuper@42122	70	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	71	%%---------------------------------------------------------------%%
neuper@42122	72	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42074	73
jan@42163	74	\section[Intro]{Introduction}
jan@42163	75
jan@42175	76	\begin{frame}{Issues to be Accomplished}
jan@42163	77
jan@42163	78	\begin{itemize}
jan@42163	79
jan@42183	80	\item What knowledge is already mechanised in \emph{Isabelle}?
jan@42163	81	\item How can missing theorems and definitions be mechanised?
jan@42163	82	\item What is the effort for such mechanisation?
jan@42175	83	\item How do calculations look like, by using mechanised knowledge?
jan@42175	84	\item What problems and subproblems have to be solved?
jan@42163	85	\item Which problems are already implemented in \sisac?
jan@42175	86	\item How are the new problems specified (\sisac)?
jan@42175	87	\item Which variantes of programms in \sisac\ solve the problems?
jan@42163	88	\item What is the contents of the interactiv course material (Figures, etc.)?
jan@42163	89
jan@42163	90	\end{itemize}
jan@42163	91	\end{frame}
jan@42163	92
jan@42163	93	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42163	94	%%---------------------------------------------------------------%%
jan@42163	95	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42163	96
jan@42175	97	\section[Fourier]{Fourier transformation}
jan@42175	98	\subsection[Fourier]{Fourier transform}
neuper@42122	99
neuper@42122	100	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	101	%% Fourier INTRO %%
neuper@42122	102	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	103
neuper@42122	104	\begin{frame}\frametitle{Fourier Transformation: Introduction}
jan@42191	105	Possibilities:
neuper@42122	106	\begin{itemize}
jan@42175	107	\item Transform operation by using property-tables
jan@42175	108	\item Transform operation by using integral
jan@42191	109	\end{itemize}
jan@42191	110	Also Important:
jan@42191	111	\begin{itemize}
jan@42191	112	\item Visualisation?!
neuper@42122	113	\end{itemize}
neuper@42074	114	\end{frame}
neuper@42074	115
neuper@42122	116	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	117	%% Transform expl SPEC %%
neuper@42122	118	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	119
jan@42175	120	\begin{frame}\frametitle{Fourier Transformation: Specification}
jan@42175	121	{\footnotesize
jrocnik@42159	122
jan@42175	123	Determine the fourier transform for the given rectangular impulse:
jrocnik@42159	124
jrocnik@42159	125	\begin{center}
jrocnik@42159	126	$x(t)= \left\{
jrocnik@42159	127	\begin{array}{lr}
jan@42163	128	1 & -1\leq t\leq1\\
jrocnik@42159	129	0 & else
jrocnik@42159	130	\end{array}
jrocnik@42159	131	\right.$
jrocnik@42159	132	\end{center}
jrocnik@42159	133
jan@42175	134	\hrulefill
jan@42175	135
neuper@42076	136	\begin{tabbing}
neuper@42076	137	1\=postcond \=: \= \= $\;\;\;\;$\=\kill
neuper@42076	138	\>given \>:\> piecewise\_function \\
jan@42191	139	\> \> \> \>$fun (x (t::real),\ x=1\ ((t>=-1)\ \&\ (t<=1)),\ x=0)$\\
neuper@42076	140	\>precond \>:\> TODO\\
neuper@42076	141	\>find \>:\> $X(j\cdot\omega)$\\
neuper@42076	142	\>postcond \>:\> TODO\\
neuper@42076	143	\end{tabbing}
neuper@42076	144
neuper@42076	145	}
neuper@42076	146	\end{frame}
neuper@42076	147
neuper@42122	148	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	149	%% Transform expl REQ %%
neuper@42122	150	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	151
jan@42175	152	\begin{frame}\frametitle{Fourier Transform: Development effort}
neuper@42122	153	{\small
neuper@42122	154	\begin{center}
neuper@42122	155	\begin{tabular}{l\|l\|r}
neuper@42122	156	requirements & comments &effort\\ \hline\hline
neuper@42122	157	solving Intrgrals & simple via propertie table & 20\\
neuper@42122	158	& \emph{real} & MT\\ \hline
neuper@42122	159	transformation table & simple transform & 20\\ \hline
neuper@42122	160	visualisation & backend & 10\\ \hline
neuper@42122	161	example collection & with explanations & 20\\ \hline\hline
neuper@42122	162	& & 70-80\\
neuper@42122	163	\end{tabular}
neuper@42122	164	\end{center}
neuper@42122	165	effort --- in 45min units\\
neuper@42122	166	MT --- thesis ``Integrals'' (mathematics)
neuper@42122	167	}
neuper@42074	168	\end{frame}
jan@42163	169
jan@42163	170	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42163	171	%%--------------------FOURIER---Conclusion-----------------------%%
jan@42163	172	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42163	173
jan@42175	174	\begin{frame}{Fourier Transformation: Summary}
jan@42163	175	\begin{itemize}
jan@42163	176
jan@42175	177	\item Standard integrals can be solved with tables
jan@42183	178	\item No real integration (yet avaible)
jan@42175	179	\item Math \emph{tricks} difficult to implement
jan@42175	180
jan@42163	181
jan@42163	182	\end{itemize}
jan@42163	183	\end{frame}
jan@42163	184
neuper@42122	185	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	186	%-----------------------------------------------------------------%
neuper@42122	187	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42074	188
jan@42175	189	\section[LTI Systems]{LTI systems}
jan@42183	190	\subsection[Convolution]{Convolution (Faltung)}
neuper@42122	191
neuper@42122	192	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42173	193	%% LTI INTRO %%
neuper@42122	194	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	195
neuper@42122	196	\begin{frame}\frametitle{Convolution: Introduction}
neuper@42122	197	\begin{itemize}
jan@42191	198	\item Calculation include sums
jan@42191	199	\item Demonstrative examples
jan@42191	200	\item Visualisation is important
neuper@42122	201	\end{itemize}
neuper@42122	202	\end{frame}
neuper@42122	203
neuper@42122	204	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42173	205	%% LTI SPEC %%
neuper@42122	206	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	207
neuper@42122	208	\begin{frame}\frametitle{Convolution: Specification}
jan@42175	209	{\footnotesize
jrocnik@42159	210
jrocnik@42159	211	Consider the two discrete-time, linear and time-invariant (LTI) systems with the following impulse response:
jrocnik@42159	212
jrocnik@42159	213	\begin{center}
jrocnik@42159	214	$h_1[n]=\left(\frac{3}{5}\right)^n\cdot u[n]$\\
jrocnik@42159	215	$h_1[n]=\left(-\frac{2}{3}\right)^n\cdot u[n]$
jrocnik@42159	216	\end{center}
jrocnik@42159	217
jrocnik@42159	218	The two systems are cascaded seriell. Derive the impulse respinse of the overall system $h_c[n]$.
jrocnik@42159	219
jan@42173	220	\hrulefill
jan@42191	221
neuper@42122	222	\begin{tabbing}
neuper@42122	223	1\=postcond \=: \= \= $\;\;\;\;$\=\kill
neuper@42122	224	\>given \>:\> Signals h1[n], h2[n] \\
jan@42191	225	\> \> \> \>((h1[n]=(3/5)\textasciicircum{}nu[n]),\,h2[n]=(-2/3)\textasciicircum{}nu[n]))\\
jan@42191	226
neuper@42122	227	\>precond \>:\> TODO\\
neuper@42122	228	\>find \>:\> $h1[n]\,*\,h2[n]$\\
neuper@42122	229	\>postcond \>:\> TODO\\
neuper@42122	230	\end{tabbing}
neuper@42122	231
neuper@42122	232	}
neuper@42122	233	\end{frame}
neuper@42122	234
neuper@42122	235	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42173	236	%% LTI REQ %%
neuper@42122	237	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	238
neuper@42122	239	\begin{frame}\frametitle{Convolution: Development effort}
neuper@42122	240	{\small
neuper@42122	241	\begin{center}
neuper@42122	242	\begin{tabular}{l\|l\|r}
neuper@42122	243	requirements & comments &effort\\ \hline\hline
neuper@42122	244	simplify rationals & \sisac & 0\\ \hline
neuper@42122	245	define $\sum\limits_{i=0}^{n}i$ & partly \sisac & 10\\ \hline
neuper@42122	246	simplify sum & termorder & 10\\
neuper@42122	247	& simplify rules & 20\\
neuper@42122	248	& use simplify rationals& 0\\ \hline
neuper@42122	249	index adjustments & with unit step & 10\\ \hline
neuper@42122	250	example collection & with explanations & 20\\ \hline\hline
neuper@42122	251	& & 70-90\\
neuper@42122	252	\end{tabular}
neuper@42122	253	\end{center}
neuper@42122	254	effort --- in 45min units\\
neuper@42122	255	}
neuper@42122	256	\end{frame}
jan@42173	257
jan@42173	258	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42173	259	%%--------------------LTI-------Conclusion-----------------------%%
jan@42173	260	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42173	261
jan@42175	262	\begin{frame}{Convolution: Summary}
jan@42173	263	\begin{itemize}
jan@42173	264
jan@42175	265	\item Standard example
jan@42183	266	\item Straight forward
jan@42175	267	\item Challenge are sum limits
jan@42173	268
jan@42173	269	\end{itemize}
jan@42173	270	\end{frame}
jan@42173	271
neuper@42122	272	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	273	%-----------------------------------------------------------------%
neuper@42122	274	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	275
neuper@42122	276	\section[Z-transform]{Z-Transform}
neuper@42122	277	\subsection[(Inverse) Z-Transform]{(Inverse) Z-Transform}
neuper@42122	278
neuper@42122	279	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	280	%% Z-Transform INTRO %%
neuper@42122	281	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	282
neuper@42122	283	\begin{frame}\frametitle{(Inverse) ${\cal Z}$-Transformation: Introduction}
neuper@42122	284	\begin{itemize}
neuper@42122	285	\item Pure Transformation is simple to realise with Z-Transform Properties (Table)
neuper@42122	286	\item Partial Fraction are just math simplifications
neuper@42122	287	\end{itemize}
neuper@42122	288	\end{frame}
neuper@42122	289
neuper@42122	290	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	291	%% Z-Transform SPEC %%
neuper@42122	292	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	293
jan@42173	294	\begin{frame}\frametitle{(Inverse) Z-Transformation: Specification}
jan@42175	295	{\footnotesize
jrocnik@42159	296
jan@42175	297	Determine the inverse z transform of the following expression. Hint: applay the partial fraction expansion.
jrocnik@42159	298
jrocnik@42159	299	\begin{center}
jrocnik@42159	300	$X(z)=\frac{3}{z-\frac{1}{4}-\frac{1}{8}z^{-1}},\ \ x[n]$ is absolute summable
jrocnik@42159	301	\end{center}
jrocnik@42159	302
jan@42175	303
jan@42173	304	\hrulefill
jan@42173	305
neuper@42122	306	\begin{tabbing}
neuper@42122	307	1\=postcond \=: \= \= $\;\;\;\;$\=\kill
neuper@42122	308	\>given \>:\> Expression of z \\
jan@42207	309	\> \> \> \>(X (z::complex),3/(z-1/4-1/8\,z\textasciicircum{}(-1)))\\
neuper@42122	310	\>precond \>:\> TODO\\
neuper@42122	311	\>find \>:\> Expression of n\\
neuper@42122	312	\> \> \> \>$h[n]$\\
neuper@42122	313	\>postcond \>:\> TODO\\
neuper@42122	314	\end{tabbing}
neuper@42122	315
neuper@42122	316	}
neuper@42122	317	\end{frame}
neuper@42122	318
neuper@42122	319	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42122	320	%% Z expl REQ %%
neuper@42122	321	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
neuper@42076	322
neuper@42122	323
jan@42173	324	\begin{frame}\frametitle{(Inverse) Z-Transformation: Development effort}
neuper@42075	325	{\small
neuper@42075	326	\begin{center}
neuper@42075	327	\begin{tabular}{l\|l\|r}
neuper@42075	328	requirements & comments &effort\\ \hline\hline
neuper@42075	329	solve for part.fract. & \sisac: degree 2 & 0\\
neuper@42075	330	& complex nomminators & 30\\
neuper@42075	331	& degree > 2 & MT\\ \hline
neuper@42075	332	simplify polynomial & \sisac & 0\\
neuper@42075	333	simplify rational & \sisac & 0\\ \hline
neuper@42075	334	part.fract.decomposition& degree 2 & \\
neuper@42075	335	& specification, method& 30\\ \hline
neuper@42075	336	${\cal Z}^{-1}$ table & & 20\\
neuper@42075	337	& explanations, figures& 20\\ \hline
neuper@42075	338	example collection & with explanations & 20\\ \hline\hline
neuper@42075	339	& & 90-120\\
neuper@42075	340	% & & 1 MT
neuper@42075	341	\end{tabular}
neuper@42075	342	\end{center}
neuper@42075	343	effort --- in 45min units\\
neuper@42075	344	MT --- thesis ``factorization'' (mathematics)
neuper@42075	345	}
neuper@42075	346	\end{frame}
neuper@42075	347
jan@42173	348	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42173	349	%%--------------------Z-TRANS---Conclusion-----------------------%%
jan@42173	350	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42173	351
jan@42175	352	\begin{frame}{(Inverse) Z-Transformation: Summary}
jan@42173	353	\begin{itemize}
jan@42173	354
jan@42175	355	\item No \emph{higher} math operations
jan@42175	356	\item Different subproblems of math (equation systems, etc.)
jan@42175	357	\item Both directions have the same effort
jan@42173	358
jan@42173	359	\end{itemize}
jan@42173	360	\end{frame}
jan@42173	361
jan@42175	362	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	363	%-----------------------------------------------------------------%
jan@42175	364	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	365
jan@42183	366	\section[Conclusions]{Conclusions}
jan@42175	367
jan@42175	368	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42191	369	%--------------------------DEMONSTRATION--------------------------%
jan@42191	370	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42191	371
jan@42191	372	\begin{frame}{Demonstration}
jan@42191	373
jan@42191	374	\centering{Demonstration}
jan@42191	375
jan@42191	376	\end{frame}
jan@42191	377
jan@42191	378	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	379	%--------------------------CONCLUSION-----------------------------%
jan@42175	380	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	381
jan@42175	382	\begin{frame}{Conclusions}
jan@42175	383
jan@42175	384	Design Challanges:
jan@42175	385
jan@42175	386	{\small
jan@42175	387	\begin{itemize}
jan@42175	388
jan@42175	389	\item Pre and Post conditions
jan@42175	390	\item Exact mathematic behind functions
jan@42207	391	\item Accurate mathematic notation
jan@42175	392
jan@42175	393	\end{itemize}
jan@42175	394	}
jan@42175	395
jan@42175	396	Goals:
jan@42175	397	{\small
jan@42175	398	\begin{itemize}
jan@42175	399
jan@42175	400	\item Spot the power of \sisac
jan@42175	401	\item Implementation of generell but simple math problems
jan@42175	402	\item Setting up a good first guideline (documentation) for furher problem implemenations
jan@42175	403
jan@42175	404	\end{itemize}
jan@42175	405
jan@42175	406	\centering{Efforts are only approximations, due we have no \emph{real} experience data!}
jan@42175	407	}
jan@42175	408
jan@42175	409	\end{frame}
jan@42175	410
jan@42175	411	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	412	%--------------------------TIME LINE------------------------------%
jan@42175	413	%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
jan@42175	414
jan@42175	415	\begin{frame}{Comming up}
jan@42175	416
jan@42175	417	{\small
jan@42175	418	\begin{tabular}{l r}
jan@42175	419
jan@42175	420	Juli 2011 & project startup\\
jan@42175	421	Juli 2011 & information collection, 1st presentation\\
jan@42175	422	August 2011 & extern traineeship\\
jan@42175	423	September 2011 & main work\\
jan@42175	424	after Oktober & finishing, documentation\\
jan@42175	425
jan@42175	426	\end{tabular}
jan@42175	427	}
jan@42175	428
jan@42175	429	\end{frame}
jan@42175	430
jan@42175	431
neuper@42074	432	\end{document}
neuper@42074	433
neuper@42074	434

author	Walther Neuper <neuper@ist.tugraz.at>
	Tue, 17 Sep 2013 09:50:52 +0200
changeset 52107	f8845fc8f38d
parent 52058	src/Doc/isac/jrocnik/final/jrocnik_present1.tex@83aff4cb984a
permissions	-rwxr-xr-x