. USERS AFFECTED: All users of IBM WebSphere Application. Server. PROBLEM DESCRIPTION: Replace certificate function does not.
update all keystores. RECOMMENDATION:.The replace certificate function would not delete the oldpersonal certificate on other keystores, and the alias name ofthe new cert would be incorrect on other keystores.Problem conclusion.
Jardin Dispensary
Garduino is a gardening Arduino. I built this using recycled / free materials wherever I could think to. It cost significantly less than $100 in total.
Here's what I used: The relays: 2 Omron G5LE-1 relays 2 1N4004 diodes 1 A.C. Extension cord 1 1 The watering system: 1 1 Plastic milk jug 2 Old road bike tubes 1 Milk crate String The lighting system: 1 4' fluorescent light fixture 1 'plant type' fluorescent bulb (I used the, but any bulb marketed as for plants should be fine) The soil moisture sensor: 2 galvanized nails, 1-4' in length The light sensor: 1 The temperature sensor / alert: 1 LED (any you'd use with an Arduino will do) 1 The plants and holders: A variety of seeds, preferably that'll grow into things you'd like to eat. Everywhere, I hear people recommend swiss chard as an easy starter plant.
Planting containers: As many plastic milk jugs as you'd like. 28-gallon clear plastic storage containers. You'll need one for every 6 milk jugs. 5 red bricks for each storage container, or anything else that will allow the milk jugs to stand at least an inch off the bottom of the container. Soil mixture: I used It consists of 1/3 peat moss, 1/3 coarse vermiculite, and 1/3 mixed compost, with the mixed compost coming from at least 6 different sources. I've heard lots of people bash peat moss and vermiculite's sustainability (not to mention vermiculite's obscenely-high price), so definitely explore your options here.
As I understand it, you want something w/: -lots of plant nutrients (the mixed compost) -water retention (peat moss / vermiculite) -'fluffiness:' soil should be light so plants can easily grow their roots through and you can easily remove plants from it (vermiculite / peat moss) Tools / Miscellaneous Multimeter Wire stripper Solder Electrical tape 3 10k-ohm resistors 1 210-ohm resistor (for the LED) several feet 22-gauge wire 1 (in my case a Duemanilove, but any should work) 1 1 Hot glue gun, with glue. Get your plants going by sprouting them. There are lots of guides and devices to help you do this, so I'll just mention that you can use the vermiculite watered regularly and placed in a windowsill as an ultra-basic sprouting setup.,. Make sure you remember to rinse the sprouts regularly, or they can get moldy and gross. If you're smarter than me, you'll label your seed grid so that you can remember what is growing in the different areas of your sprouter.
Below is my attempt at this, rendered useless when I planted the plants in random disorder. This was a lot more difficult before y'all have it easy now:) I used Omron G5LE-1 relays, attaching wires with solder for the electrical connections and then adding hot glue around them for some structural integrity. As per, you should make sure to run the white wire directly to the outlet / end of extension cord and the black wire through the relay.
3d Jardin Paysagisme Serial Number
For this to be useful, you'll also need to make sure you plug your creation into the wall corectly: black wire to small slot. See photo 3 for a view of how you place the diode. Obviously, you're now dealing with more potential to hurt yourself: AC does not feel good! Oh, and there's no reason you can't use outlets or extension cords for both of these. I just switched it up for variety:).
Let your creativity run wild here, with a little advice: -Your inner pots (in my case, the milk jugs) should allow water to drain out and rest on top of bricks to provide space below them. I nearly killed some lettuce because of over-watering and a lack of drainage. Thanks to 20 nail holes on the bottom of the jug, the lettuce is now recovering nicely -Your outer planter should not leak, unless you really want water all over your house The soil I used is the Mel's Mix described in step 1. Mix all ingredients well to a consistent soil.
Planting's basically a matter of burying the bottom half of your sprout in the dirt and hoping for the best. Be sure not to plant too densely (like I probably have); you can get recommendations on planting density via the back of your seed packets.
You've got a wide variety of options here. Here's how mine works:-pump is activated by relay; relay is controlled by moisture sensors-pump moves water from 5-gallon bucket to chunk of milk carton-gravity moves water from chunk of milk carton down bike tubes directly to plantsIf you do a setup like this, be sure to elevate the bucket on a crate or something else: moving water a few inches vs. Several feet vertically will greatly reduce the strain on your pump.I initially tried just using a sprinkler valve mounted to the bottom of a bucket, but gravity wasn't providing enough pressure for the water to flow beyond the slightest trickle. I thought about connecting the sprinkler valve right into my plumbing, but I worried the chlorine content of water straight from the faucet would be bad for my plants (chlorine evaporates from water within something like 24 hours).A better version of this would use 2 buckets, with water coming from sprinkler valve connected to house plumbing into one bucket, being held there 24+ hours, and then moving into the 2nd, plant-feeding bucket.The best version I can think of would use greywater and a little aquarium pump to make compost tea. I've also been thinking about the nails corroding becouse I'm also making my own version of garduino.
It will be in soil, so non hydro. A few things I'll try to do: only measure once in about 3 hours. I will not feed the + nail with Vcc but with a digital-out pin, so most of the time there will be no current flowing so i guess the nails will corrode slower. First set the pin HIGH, a few seconds before the readings. Take an average of about 1000 samples.
Then code 'if less then' or 'if higher then' to enable the pump if nessecary. (still haven't written a single line of code, I'm in the thinking process:) ). Set pin LOW, wait a few HOURS. Loop to begin (set high a few seconds before.) and so on.
I made the same as this but with some alterations, its currently reading the vegetable garden and turns a pump on when it needs watering and a valve, I have two sensors and two valves so they are individually controlled by the same Arduino. The water is passed through leaky hoses to water the garden. I also take 10 reading 3 seconds apart and divide this by 10 to get the average reading, This prevents spurious readings causing the system to start watering for no reason. My soil readings are uploaded to a web site atI am still testing the resistors as I would like it more sensitive, at the moment I am using a 5 Meg resistor.My probes are made from 8mm copper tubing which are flattened and tinned which have so far been all ok but this is a new project.I will hopefully update an instructable once i have it all working ok. Great to see you one up and running.
I will post my code on the web site soon. It might be too late for your professor, but here is the answer. Just in case someone else is wondering. The moisture sensor is nothing more than 2 probes that together with the sol in between form a resistor. If the soil is wet the resistance goes down.
That resistor is then put in a voltage divider (i.e. Another transistor is put in series) and the voltage of the junction of the 'real' resistor and the 'soil' resistor is measured. In reality the sensor doesn't measure true moisture but ion concentration in th ewater.