From 3ea2428ecdafeeb155effa1cc81d7d990ee78d9d Mon Sep 17 00:00:00 2001 From: Connor Date: Fri, 12 Jul 2019 19:37:21 -0600 Subject: [PATCH] Fleshed out current job some more --- main.tex | 33 +++++++++++++++++++-------------- 1 file changed, 19 insertions(+), 14 deletions(-) diff --git a/main.tex b/main.tex index 965522e..c42620f 100644 --- a/main.tex +++ b/main.tex @@ -508,10 +508,10 @@ % Experience % %%%%%%%%%%%%%% - \node[below=0.6cm of item 3.south west,sectionTitle] (title 2) + \node[below=0.2cm of item 3.south west,sectionTitle] (title 2) {\cvSection{Recent Experience}}; \node[left=\cvTimeDotSep of title 2,headerIcon] {\faBriefcase}; - \node[below=0.6cm of item 3.south west,sectionTitle] (title 2 dummy) {\phantom{\cvSection{Education}}}; + \node[below=0.2cm of item 3.south west,sectionTitle] (title 2 dummy) {\phantom{\cvSection{Education}}}; \begin{scope}[on background layer] \draw[line width=2pt,cvColor] let \p1=(title 2 dummy.south west), @@ -533,15 +533,20 @@ {Palski And Associates}% {Colorado Springs, CO}% {Summer 2019}% - {Organized an effort to automate telescope observations to perform - satellite orbit state determination using purely visual information. + {Organized an effort to develop and build a package to automate telescope + observations to perform satellite orbit state determination using purely + visual information in C++ utilizing many common libraries and frameworks + (Eigen, OpenCV, Boost,etc.). \\ Developed a program to determine range, azimuth, and elevation information from the observations and solve for state elements using Gooding's - approach to Lambert's problem.\\ - Also developed flight-ready software for a variety of proximity/rendesvous - operations for a secondary observational cubesat during critical missions, - leveraging feature detection and recognition in point cloud, LIDAR, and - RGB image data.}}; + approach to Lambert's problem, applying that software to a batch estimator + to accumulate and improve results.\\ + Also developed flight-ready software in C++ for a variety of + proximity/rendesvous operations for a secondary observational cubesat + during critical missions,leveraging feature detection and recognition in + point cloud, LIDAR, and RGB image data, as well as a handful of + convenience scripts written in Python. Learned about common development + workflows involving Agile methodology, git, Amazon Web Services, etc.}}; \node[ left=\cvTimeDotSep of item 1 header, timedot] @@ -609,10 +614,10 @@ % Research % %%%%%%%%%%%%%% - \node[below=0.6cm of item 3.south west,sectionTitle] (title 3) + \node[below=0.2cm of item 3.south west,sectionTitle] (title 3) {\cvSection{Research}}; \node[left=\cvTimeDotSep of title 3,headerIcon] {\faFlask}; - \node[below=0.6cm of item 3.south west,sectionTitle] (title 3 dummy) + \node[below=0.2cm of item 3.south west,sectionTitle] (title 3 dummy) {\phantom{\cvSection{Research}}}; \begin{scope}[on background layer] \draw[line width=2pt,cvColor] @@ -680,10 +685,10 @@ % Skills % %%%%%%%%%% - \node[below=0.6cm of item 2.south west,sectionTitle] (title 4) + \node[below=0.2cm of item 2.south west,sectionTitle] (title 4) {\cvSection{Honors, Certifications, Licenses}}; \node[left=\cvTimeDotSep of title 4,headerIcon] {\faStar}; - \node[below=0.6cm of item 2.south west,sectionTitle] (title 4 dummy) + \node[below=0.2cm of item 2.south west,sectionTitle] (title 4 dummy) {\phantom{\cvSection{Research}}}; \begin{scope}[on background layer] \draw[line width=2pt,cvColor] @@ -693,7 +698,7 @@ \end{scope} \matrix[matrix of nodes, - below=0.6cm of title 4.south west, + below=0.2cm of title 4.south west, anchor=north west, column sep=6pt, row sep=6pt,