In my use of this line of shower heads, a shower head with a handle is an added advantage over fixed ones and Moen makes the best of both worlds. The freedom you have is in the handheld one which can be twisted and turned in many different directions to the exact spot you want the water to be. Even for the combo designs, the rain shower head doesn’t change direction. The showerheads don’t pivot to different directions. However, be careful not to drop it too many times since it might get damaged. You won’t need to worry about normal use wearing them out. The showerheads are made of high-quality plastic which can withstand some abuse when in use. You switch between these spray functions using either a dial control or push-button on the stem of the handheld shower head. The dockable shower head has 6 different shower settings and is 3.75 inches in diameter. The rain shower head is 6.75 inches in diameter which covers the whole body when in use. In my experience using the combo design, the pressure from the shower was slightly low when both shower heads were turned on.įor the combination shower heads, the rain shower head has one full flow function in which a full rainfall experience is replicated. You can use both shower heads at the same time or use them independently as you please. The handheld one uses the magnetic docking system described above while the fixed one stays fixed and is larger for an immersive shower. The Moen Attract Magnetix is also a single shower head design.īoth of these shower heads can be found in combination designs with a handheld and fixed shower head. The Moen Engage Magnetix, for example, has a single shower head attached to the dock with a hose and the docking mechanism. Moen Magnetix showerheads come in various designs either with a single or double heads. The angle is, however, quite comfortable to use for most people at different heights. The docking surface is flat and forces you to use that angle. The only downside to this dock is that it doesn’t allow for multiple docking angles. The magnet on the shower head is just right in that it isn’t too strong that it needs to be yanked off to release the shower head or too weak that it falls off by itself. As long as you’ve brought it close enough, it’ll snap into place and stay there until you pull it off again. You don’t need to align or see the dock as the magnets do it for you. When you need to use the shower in other positions, you simply pull off the shower head from the dock, use it then put it back even with your eyes closed. When docked, Magnetix showerheads are well-positioned to serve as fixed showerheads whereby you can take a shower handsfree. With the Moen Magnetic remote dock, the handheld shower head magnetically attaches to the dock. In other shower heads, it is a cradle which you have to be accurate with each time you need to use the handheld showerhead. The most unique aspect of the Magnetix range of shower heads from Moen is the magnetic docking system.
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MATLAB’s API library lets you write C and Fortran programs right into MATLAB. It includes high-level functions for 2D and 3D data visualization, image processing, animation and presentation graphics, and can customize the appearance of graphics to build graphical user interface on any of your MATLAB applications. It is definitely a useful feature for both quick applications or big, sophisticated application programs.įind MATLAB’s extensive facilities for displaying vectors and matrices as well as annotating and printing graphs. The high-level matrix or array language provides you with control flow statements, functions, data structures and object-oriented programming features. The set ranges from familiar functions to more complex computations. You’ll see that you can get big help from MATALB’s vast collection of computational algorithms. Here you can find the MATLAB desktop and Command Window, workspace, files and search path in a nifty editor, debugger, and browser. The MATLAB hosts a condensed system of complex tools and functions that guide you through MATLAB functions and files,and are primarily graphical user interfaces. For sure, MATLAB will only continue to offer industry standard services for a long time. Errata for the User Guide can be found here.MATLAB offers a wide reach of functions in a simple and straightforward piece software. The User Guide (located by default in /Applications/Dynare/>/doc/userguide/UserGuide.pdf) is a particularly helpful starting place. Before excuting MOD files, you need to execute the following command at Octave prompt: addpath /Applications/Dynare/>/matlabĭocumentation can be found in the doc/ folder under the installation directory (the default is /Applications/Dynare/>/doc).If you are going to use the use_dll or k_order_perturbation options, add the following lines to the /Applications/Octave.app/Contents/Resources/bin/mkoctfile-3.4.0 file after the set -e statement at the top of the file CFLAGS="-arch i386 $" Octave Setup for OS X 10.6 and 10.7 (not available under 10.8)ĭownload and install version 3.4.0 of the Octave Mac OS X binary and add /Applications/Octave.app/Contents/Resources/bin to your search path. Before executing MOD files, you need to execute the following command at Octave prompt: addpath /Applications/Dynare/>/matlabĭynare 4.2.2 - 4.3.2 on Mac OS X 10.6 or higher.Install Octave 3.6.4 via Homebrew (which requires XCode) by following the instructions in the "Simple Installation Instructions" subsection of the "Homebrew" section of this site. If you have a non-default setup, you can see what path to add by looking at the "Caveats" section of the output from brew install dynareĭynare 4.3.3 - 4.4.2 on Mac OS X 10.6 or higher Having installed Octave via Homebrew, open Octave by typing octave at the terminal promptĪt the Octave prompt, type: addpath /usr/local/opt/dynare/lib/dynare/matlab for the default setup. You can do this either using the addpath command to add it just for this session or using the menu option File->Set Path. NB: To build another snapshot version of dynare at a later point, first type brew uninstall dynare then brew install dynare -HEAD.ĭynare (stable) on Mac OS X 10.6 or higherĪdd /Applications/Dynare/>/matlab/ to your Matlab path. Via Homebrew (provides Matlab and Octave mex files)įollow the instructions under Install Dynare (Stable): Dynare For Octave, replacing brew install dynare with brew install dynare -HEAD Via the snapshot (Provides Matlab mex files)įollow the instructions under Install Dynare (Stable): Dynare For Matlab using the latest Dynare snapshot for macOS The default installation folder is /usr/local/Cellar/dynare/>, where > is one of 4.2.0, 4.2.1, 4.2.2, etc. Install Homebrew by following the directions on their site The default installation folder is /Applications/Dynare/>, where > is one of 4.2.0, 4.2.1, 4.2.2, etc. If you get a warning saying that the package cannot be opened "because it is from an unidentified developer," open the folder containing the package, right-click on it, select "Open" from the menu that pops up, and select "Open" from the dialog box that pops up.Install Dynare by double-clicking on the package and following the installation instructions.If you have any troubles, please contact ĭownload the appropriate Dynare package for your version of Mac OS X from the Dynare website This page documents the installation of the Dynare on Mac OS X. In results of imaging sensor B, the estimation models usingstructural indices and simple ratio on DP were divided into low to intermediate FW andintermediate to high FW. The models using simple ratio calculatedby same bands of DP were feasible to accurately estimate FW(R2 of more than 0.946 withRMSE of less than 169.5 g). The estimationmodels using simple ratio calculated by red edge and visible bands of NP showed betterperformance than other models, but RMSE was high. In results of imaging sensor A, the estimation models using structural indices andsimple ratio were divided into NP and DP due to different attribute of reflectance in canopieswith changed environment condition depending on different planting dates. In this study, models for monitoring freshweight(FW), one of the major growth factors of Chinese cabbage, were developed withstructural indices and simple ratio calculated from bands in remotely sensed canopies by NIR,RE(imaging sensor A) and multispec-4c sensors(imaging sensor B) equipped with fixed-wingUAV depending on vegetation stages of normal planting(NP) and delayed planting(DP) Chinesecabbages. Low altitude remote sensing(LARS) system is utilized toaccurately monitor the growth status of the crops. TI - Model Assessment Multi-temporal Monitoring of Chinese Cabbage Growth using Low Altitude Remote Sensing SystemĪB - It is necessary to monitor growth status of the crops due to continuous change of climatecausing insecurity in crop cultivation. Estimation models of those calculated by red edge andvisible bands in intermediate to high FW were only possible to accurately estimate FW(R2 ofmore than 0.532 with RMSE of less than 400.7 g). As a result, estimation models of all structural indices and simpleratio in low to intermediate FW bands were advisable to estimate FW(R2 of more than 0.860with RMSE of less than 104.7 g). With high geometric resolutions and respective GSDs of down to 2.5 cm the effects of a thrips infestation in onion could be analysed and potato blight was successfully detected at an early stage of infestation.It is necessary to monitor growth status of the crops due to continuous change of climatecausing insecurity in crop cultivation. In case of barley, the NDRE index shows an average correlation of 87% with reference yield, when species are taken into account. High levels of correlation between different vegetation indices and reference yield measurements were obtained for rape and barley. These included crop yield estimation in rape and barley and plant disease detection in potato and onion cultivations. The sensors were subsequently used to address selected agronomical questions. The low-cost system, while delivering better spatial resolutions, expressed significant biases. The investigations show that measurements with the high-end system consistently match very well with ground-based field spectrometer measurements with a mean deviation of just 0.01-0.04 NDVI values. Ground-based reference measurements were obtained using a terrestrial hyperspectral field spectrometer. In our sensor comparison we included a high-end multispectral multiSPEC 4C camera with bandpass colour filters and reference channel in zenith direction and a low-cost, consumer-grade Canon S110 NIR camera with Bayer pattern colour filters. The investigations are based on a series of flight campaigns in 20 covering a number of agronomical test sites with experiments on rape, barley, onion, potato and other crops. In this paper we investigate the performance of new light-weight multispectral sensors for micro UAV and their application to selected tasks in agronomical research and agricultural practice. |