updating readmes

Author: kmruehl

MOST/README.md

@@ -6,9 +6,12 @@
 
 **Original WEC-Sim Version:** 	WEC-Sim v6.0
 
-**Relevant Citation(s)**	M. Sirigu, E. Faraggiana, A. Ghigo, G. Bracco, “Development of MOST, a fast simulation model for optimisation of floating offshore wind turbines in Simscape Multibody” Journal of Physics: Conference Series. Vol. 2257. No. 1. IOP Publishing, 2022.
+**Description**	
 
 WEC-Sim+MOST simulation of a floating, offshore, horizontal axis, three-bladed wind turbine. TurbSim is used to define the turbulent wind conditions.
 Users can find additional examples using WEC-Sim+MOST on the MOREnergy Lab repository: [MOREnergyLab/MOST_Simscape repository](https://github.com/MOREnergylab/MOST_simscape)
 
 NOTE: Users must execute `mostIO` from the `mostData' directory prior to running this case. 
+
+**Relevant Citation(s)**	
+M. Sirigu, E. Faraggiana, A. Ghigo, G. Bracco, “Development of MOST, a fast simulation model for optimisation of floating offshore wind turbines in Simscape Multibody” Journal of Physics: Conference Series. Vol. 2257. No. 1. IOP Publishing, 2022.

PTO-Sim/README.md

@@ -6,12 +6,18 @@
 
 **Original WEC-Sim Version:** 	WEC-Sim v2.0
 
+**Description**	
+
+Examples using [PTO-Sim](http://wec-sim.github.io/WEC-Sim/advanced_features.html#pto-sim). Examples of WEC-Sim models using PTO-Sim are included for the [RM3](http://wec-sim.github.io/WEC-Sim/tutorials.html#two-body-point-absorber-rm3) geometry and [OSWEC](http://wec-sim.github.io/WEC-Sim/tutorials.html#oscillating-surge-wec-oswec) geometry.
+
+
 **Relevant Citation(s)**	
 
 Leon-Quiroga, J.; Ogden, D.; Husain, S.; Sheng, W.; Aggidis, G.; Bharath, A. (2024). Design and Performance Evaluation of a Resistive Control Using a Hydraulic PTO System for the TALOS Wave Energy Converter. Paper presented at 34th International Ocean and Polar Engineering Conference (ISOPE 2024), Rhodes, Greece.
 
 Leon, J.; Grasberger, J.; Forbush, D.; Sirigu, M.; Ancellin, M.; Tom, N.; Keester, A.; Ruehl, K.; Ogden, D.; Husain, S. (2024). Advanced Features and Recent Developments in the WEC-Sim Open-Source Design Tool . Paper presented at Pan American Marine Energy Conference (PAMEC 2024), Barranquilla, Colombia.
 
+Tom, N.; Ruehl, K.; Keester, A.; Forbush, D.; Ogden, D.; Leon, J.; Husain, S.; Grasberger, J.; Topper, M.; Yu, Y-H. (2023). New Developments and Capabilities Within WEC-Sim. Paper presented at 42nd International Conference on Ocean, Offshore & Arctic Engineering (OMAE 2023), Melbourne, Australia. https://doi.org/10.1115/OMAE2023-105030
+
 R. So, A. Simmons, T. Brekken, K. Ruehl, and C. Michelen, “Development of PTO-SIM: A Power Performance Module for the Open-Source Wave Energy Converter Code WEC-Sim,” in Proceedings of the 34th International Conference on Ocean, Offshore and Arctic Engineering, OMAE 2015, St. John’s, Newfoundland, Canada, 2015.
 
-Examples using [PTO-Sim](http://wec-sim.github.io/WEC-Sim/advanced_features.html#pto-sim). Examples of WEC-Sim models using PTO-Sim are included for the [RM3](http://wec-sim.github.io/WEC-Sim/tutorials.html#two-body-point-absorber-rm3) geometry and [OSWEC](http://wec-sim.github.io/WEC-Sim/tutorials.html#oscillating-surge-wec-oswec) geometry.