![]() The company is unable to identify service providers to complete the requested Unable to fulfill the order but that it will attempt to do so by reaching out Minute orders, Bellhop advises its customers in advance that the company may be Each of these allegations are addressed in turn below.Ĭancellations: Cancellations can be explained in part by Bellhop’s willingness to book last minute orders that other movers refuse or are With the move that were requested during booking and (iii) allegations ofĭamages due to improper packing and handling. Scheduled move date (ii) allegations that fewer crew members arrived to assist According to that letter, the BBB has identified the following patterns of consumer complaints: (i) allegations that customers’ moves were canceled just before the The BBB has requested a response to the BBB’s review of certain patterns of complaints alleging customer service and communication issues. "I am writing in response to the Better Business Bureau’s letter dated Novemin which On November 14, 2022, BBB submitted a written request to the company, identifying the potential patterns of complaint, and requested that the business respond with information on steps the company would take to help eliminate the underlying cause of complaints.įormal response from Dustin Carlton, VP, Legal & Complianceįor Bellhop on December 9, 2022. Some complaints also allege damaged items due to improper packing and handling. Some consumers report that fewer crew members arrived to assist with the move than were secured at the time of booking, which caused delays and increased costs. Consumers allege that their move was cancelled the day of their move or just before the scheduled time due to a lack of crew and/or trucks. contourf( np.BBB files indicate that this business has a pattern of complaints alleging customer service and billing issues. linspace( - 30, 0, 20) # set the levels of the contour map Write_env( 'py_env.env', 'BELLHOP', 'Pekeris profile', freq, ssp, bdy, pos, beam, cInt, RMax) linspace( - 20, 20, nbeams) # min and max launch angle -20 degrees to 20 degreesīox = Box( 5500, 100) #bound the region you let the beams go, depth in meters and range in kmĭeltas = 0 # length step of ray trace, 0 means automatically chooseīeam = Beam( RunType = run_type, Nbeams = nbeams, alpha = alpha, box = box, deltas = deltas) # package Run_type = 'I' # incoherently sum beams, see AT docs for more infoĪlpha = np. # min and max ssp (only used for modal calculations) ![]() Opt = 'A' # analytical solution in the bottom matches boundary conditions in water columnīdy = Bndry( top, bottom) # package top and bottom together Hs = HS( alphaR, betaR, rhob, alphaI, betaI) Halfspace object treats the second layer as an infinite halfspace Ssp = SSP( raw, depth, NMedia, Opt, N, sigma, 2) # SSP object contains all the info for the first layer (the water layer) Opt = 'QVW' # see AT docs for details on env options Ssp1 = SSPraw( z1, alphaR, betaR, rho, alphaI, betaI) # Create SSPraw object out of the first column ![]() Write the environment to a ssp file (required only for range dependent bellhop # load the SSP into a 2D numpy array for write_envĬreate a second SSP by simply adding 10 to every value in the original Munk SSP ones(( len( z1))) # shear atten at each depth ![]() ones(( len( z1))) # atten at each depthīetaI = 0.0 * np. ones(( len( z1))) # rho at each depthĪlphaI = aw * np. ones(( len( z1))) # shear speed at each depth Z1 = # SSP profile depthsĪlphaR = # SSP profile valuesīetaR = 0.0 * np. Nrd = len( X) # number of receiver rangesĭepth = # layer depths (surface and bottom) depth = # something weird about how this populates so have to manually do it Initialize pyat objects with the parameters configured above Grid for simulation (each point in the grid is a receiver) Goal is look at contour map of green's function Run a bellhop test on a simple range-dependent environment Munk profile ![]()
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