- 《IEEE Geoscience & Remote Sensing Letters》 被引量: 34发表: 2008年 Geometrical and structural parametrization of forest canopy radiative transfer by LIDAR measurements A forest canopy is a complex system with a highly structural multi-scale architecture. Physical based radiative transfer (RT) ...
// Then, create a BigText from the time string using PTerm's DefaultBigText and putils NewLettersFromString. // The Srender() function is used to save the BigText as a string. str, _ := pterm.DefaultBigText.WithLetters(putils.LettersFromString(time.Now().Format("15:04:05")))....
We find an orientation of a tree with 20 vertices such that the corresponding fixed-template constraint satisfaction problem (CSP) is NP-complete, and prov
And he named it as incompatible, not with the Kingdom of Israel, but rather with the Reign of God, a land, a way of life that was bound not by mountains and rivers and political boundaries, but by the walls of a beating heart, a heart as big and open as the entire cosmos. The ...
A Python library for doing fast, thread-safe computations with phylogenetic trees. Release notes New for SuchTree v1.2 Quartet topology tests provided bySuchTree.get_quartet_topology( a, b, c, d ) Optimized, thread-safe bulk quartet topology tests provided bySuchTree.quartet_topologies( [N,4...
We use a `sum-over-paths' method to derive an explicit expression for the Green's function of the diffusion equation on an arbitrary tree, making connection with the conventional Laplace approach but emphasizing the real-time nature of the technique. This provides a general framework for studying...
Letters: Metro, old trolleys, treesHouston Chronicle
6 It’s been an exciting morning. It’s been really stormy here overnight, with Storm Arwen bringing very, very gusty winds but luckily no damage. I think the north of the country have had it far worse with 98 mph winds. I kept having shouted weather updates from downstairs first thing...
Select(func(key interface{}, value interface{}) bool { return value.(int) % 2 == 0 }) printMap("Elements with even values", even) // { b:2 d:4 f:6 } foundKey, foundValue := m.Find(func(key interface{}, value interface{}) bool { return value.(int) % 2 == 0 && ...
Select(func(key interface{}, value interface{}) bool { return value.(int) % 2 == 0 }) printMap("Elements with even values", even) // { b:2 d:4 f:6 } foundKey, foundValue := m.Find(func(key interface{}, value interface{}) bool { return value.(int) % 2 == 0 && ...