<div dir="ltr"><div>You can perhaps learn a bit from Peter van de Kamps work:</div><div><br></div><a href="http://adsabs.harvard.edu/cgi-bin/nph-abs_connect?db_key=AST&db_key=PRE&qform=AST&arxiv_sel=astro-ph&arxiv_sel=cond-mat&arxiv_sel=cs&arxiv_sel=gr-qc&arxiv_sel=hep-ex&arxiv_sel=hep-lat&arxiv_sel=hep-ph&arxiv_sel=hep-th&arxiv_sel=math&arxiv_sel=math-ph&arxiv_sel=nlin&arxiv_sel=nucl-ex&arxiv_sel=nucl-th&arxiv_sel=physics&arxiv_sel=quant-ph&arxiv_sel=q-bio&sim_query=YES&ned_query=YES&adsobj_query=YES&aut_logic=OR&obj_logic=OR&author=van+de+kamp%2C+p&object=&start_mon=&start_year=1950&end_mon=&end_year=1985&ttl_logic=OR&title=&txt_logic=OR&text=&nr_to_return=200&start_nr=1&jou_pick=ALL&ref_stems=&data_and=ALL&group_and=ALL&start_entry_day=&start_entry_mon=&start_entry_year=&end_entry_day=&end_entry_mon=&end_entry_year=&min_score=&sort=SCORE&data_type=SHORT&aut_syn=YES&ttl_syn=YES&txt_syn=YES&aut_wt=1.0&obj_wt=1.0&ttl_wt=0.3&txt_wt=3.0&aut_wgt=YES&obj_wgt=YES&ttl_wgt=YES&txt_wgt=YES&ttl_sco=YES&txt_sco=YES&version=1">http://adsabs.harvard.edu/cgi-bin/nph-abs_connect?db_key=AST&db_key=PRE&qform=AST&arxiv_sel=astro-ph&arxiv_sel=cond-mat&arxiv_sel=cs&arxiv_sel=gr-qc&arxiv_sel=hep-ex&arxiv_sel=hep-lat&arxiv_sel=hep-ph&arxiv_sel=hep-th&arxiv_sel=math&arxiv_sel=math-ph&arxiv_sel=nlin&arxiv_sel=nucl-ex&arxiv_sel=nucl-th&arxiv_sel=physics&arxiv_sel=quant-ph&arxiv_sel=q-bio&sim_query=YES&ned_query=YES&adsobj_query=YES&aut_logic=OR&obj_logic=OR&author=van+de+kamp%2C+p&object=&start_mon=&start_year=1950&end_mon=&end_year=1985&ttl_logic=OR&title=&txt_logic=OR&text=&nr_to_return=200&start_nr=1&jou_pick=ALL&ref_stems=&data_and=ALL&group_and=ALL&start_entry_day=&start_entry_mon=&start_entry_year=&end_entry_day=&end_entry_mon=&end_entry_year=&min_score=&sort=SCORE&data_type=SHORT&aut_syn=YES&ttl_syn=YES&txt_syn=YES&aut_wt=1.0&obj_wt=1.0&ttl_wt=0.3&txt_wt=3.0&aut_wgt=YES&obj_wgt=YES&ttl_wgt=YES&txt_wgt=YES&ttl_sco=YES&txt_sco=YES&version=1</a><br></div><div class="gmail_extra"><br><div class="gmail_quote">On Sun, Oct 5, 2014 at 3:24 PM, gonghang.naoc <span dir="ltr"><<a href="mailto:ghang.naoc@gmail.com" target="_blank">ghang.naoc@gmail.com</a>></span> wrote:<br><blockquote class="gmail_quote" style="margin:0 0 0 .8ex;border-left:1px #ccc solid;padding-left:1ex"><div dir="ltr"><div>Hi evryone,</div><div>I have a series of  images for a single target.  So a series of positions can be got. </div><div>How to get  proper motion and parallax? The two values are coupled, right?  So I have to fit them simutaneously.  The apparent orbit of a nearby star should be a <span dir="auto">Cycloid, (parallax makes circular motion and pm makes uniform rectilinear motion), right?</span></div><div><span dir="auto">I am totally a layman. Or simplely, is thee any pythonic modules which can derive pm and parallax?</span></div><div><span dir="auto"></span> </div><div><span dir="auto">Thank you.</span></div><div><span dir="auto">best</span></div><div><span dir="auto">hang</span></div><div> </div></div>
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<br></blockquote></div><br><br clear="all"><div><br></div>-- <br><div dir="ltr"><br>* * * * * * * * <a href="http://www.mssl.ucl.ac.uk/~npmk/" target="_blank">http://www.mssl.ucl.ac.uk/~npmk/</a> * * * *<br>Dr. N.P.M. Kuin      (<a href="mailto:n.kuin@ucl.ac.uk" target="_blank">n.kuin@ucl.ac.uk</a>)      <br>phone +44-(0)1483 (prefix) -204927 (work) <br>mobile +44(0)7806985366  skype ID: npkuin<br>Mullard Space Science Laboratory  – University College London  –<br>Holmbury St Mary – Dorking – Surrey RH5 6NT–  U.K.</div>
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